B.M.S.

COLLEGE OF ENGINEERING, BENGALURU

Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

team, to manage projects and in multidisciplinary environments.

PO12: Life-long learning: Recognize the need for, and have the
preparation and ability to engage in independent and life-long
learning in the broadest context of technological change.
Course Names Course Outcomes (COs)
19CV3BSMAT CO1: Apply Numerical techniques to solve problems
Engineering arising in
Mathematics-III CO2: Demonstrate an understanding of Fourier Series, Fourier
Transforms and Z- Transforms.
CO3: Apply the concepts of calculus to functional.
19CV3ESGEO CO1: Explain the Internal structure of the earth. Identify and
Engineering Geology classify minerals and rocks.
CO2: Provide decision support on Lithological characters and
related groundwater conditions.
CO3: Describe various geological maps and interpretation of
geological data for mining and mineral excavations,
tunneling and other civil engineering projects
19CV3PCBMC CO1: Discuss the physical and mechanical properties of a
Building materials and variety of construction materials.
construction CO2: Explain the functional components of a building.
CO3: Describe the construction process of various components
of a building.
CO4: Conduct experiments to determine properties of civil
engineering materials.
19CV3PCGDY CO1:Explain concepts of linear, direction, angular and
Geodesy elevation measurements, discuss recording methods and
Instruments used.
CO2 Calculate various parameters of linear, direction, angular
measurement and Elevation of objects.
CO3 Explain latest technologies and modern instruments
used for surveying.
CO4 Conduct experiments on linear, direction, angular and
elevation measurements, Record and interpret the data.
19CV3PCMOF CO1 Explain physical properties of a fluid and their applications
Mechanics of Fluids in fluid mechanics.
CO2 Apply concepts of total pressure and center of pressure to
problems related to Fluid structure interactions.
CO3 Identify fundamental kinematics of a fluid element.
CO4 Apply concept of fluid measurement and pipe flows in
Engineering problems.
19CV3PCSOM Strength CO1 Explain stress and strain at a point and their relations in a
of materials deformable material.
CO2 Apply force equilibrium conditions and concept of free body
diagrams to determine internal forces, stresses and responses
under different loading conditions.
19HS3ICCIP CO1 Understand and explain the significance of Indian
Constitution of India Constitution as the Fundamental Law of the Land.
CO2 Analyze the concepts and ideas of Human Rights.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

and Professional Ethics CO3 Apply the practice of ethical responsibilities and duties
to protect the welfare and safety of the public.
19HS3NCENV CO1: Discuss the components and impacts of human activities
Environmental studies on environment.
CO2: Apply the environmental concepts for conservation and
protection of natural resources.
CO3: Identify and establish relationship between social,
economic and ethical values from environmental perspectives.
19CV4PCMATEngineering CO 1 Demonstrate an understanding of concepts of
Mathematics-IV statistical analysis and probability distributions.
CO 2 Apply Numerical techniques to solve partial
differential equations arising in engineering.
CO 3 Demonstrate an understanding of analytic functions and
their application to evaluate integrals.
1019CV4PCSTA CO1 Identify forms of structures and the associated
Structural Analysis indeterminacies
CO2 Apply the force equilibrium conditions and compatibility
conditions to analyze simple structures like arches, cables and
evaluate structural response.
CO3 Apply energy principles to analyze determinate structures.
19CV4PCCONConcrete CO1 Discuss the influence of the properties of ingredients of
Technology concrete including the marginal materials
CO2 Explain the requirement of engineering properties of
concrete for structural use
CO3 Apply fundamental principles, procedures and various
specifications for designing concrete mixes.
CO4 Describe the causes of deterioration of concrete and the
test methods
CO5 Conduct experiments to determine the properties of
concrete
19CV4PCGTEGeotechnica CO1 Explain fundamental concepts and theory related to
l Engineering-I different phases of soil, Index properties, Engineering properties,
and soil structure and soil water systems.
CO2 Derive functional relationships, calculate Index
properties,
Engineering properties and Classify soils.
CO3 Conduct experiments on soil, analyze, interpret the data,
Comprehend and write reports.
19CV4PCHYMHydraulics CO1 Analyze uniform & non uniform flows in open channels.
and hydraulic machines CO2 Apply impulse momentum principle to compute impact of
jet on fixed and moving plates
CO3 Explain working of pumps and turbines and apply the basic
principles to study the performance of these machines.
CO4 Conduct experiments, interpret data and arrive at
conclusions related to fluid mechanics, hydraulics and hydraulic
machines.
19CV4PCWSEWater CO1 Describe and design various parameters of
supply Engineering collection and conveyance of water.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

CO2 Evaluate water quality parameters through water quality

standards
CO3 Describe basic structure of drinking water supply
systems, conservation and design the component systems of
water treatment facilities
19CV4PCBPDBuilding CO1: Develop drawings from given line diagram.
planning & drawing CO2: Prepare drawings of various components of buildings.
CO3: Design and draw the various types of buildings as per
requirements and develop drawings showing the interconnectivity
of functional components of buildings along with service layouts.

Name of the M.Tech in Construction Technology

Programme
Programme PEO1: Able to pursue professional career in the constantly changing
Educational Objectives field of construction, Engineering, Technology and Management.
(PEOs) PEO2: Able to contribute to knowledge base through teaching and
research.
PEO3: Able to practice and promote sustainable construction
technologies for social needs.
Programme Outcomes PO1: An ability to independently carry out research /investigation
(POs) and development work to solve practical problems
PO2: An ability to write and present a substantial technical
report/document
PO3: An ability to demonstrate mastery in the domain of the
specialization of the program
Course Names Course Outcomes (COs)
18CVCTPCMC CO1: Comprehend and present the extent of mechanization in
MECHANIZATION IN construction activities of regular and landmark structures
CONSTRUCTION CO2: Write and compare conventional and modern construction
technologies
18CVCTPCPM CO1: Identify the organization structure of a project, provide an
CONSTRUCTION outline of project planning by drawing network diagram using CPM
PROJECT and PERT analysis
MANAGEMENT CO2: Develop resource plan, resource allocation and resource
leveling for a construction project including estimation of time-cost
trade–off in a construction project and to work in a team to develop
construction schedules for real time projects
18CVCTPCCT CO1: Identify constituent of concrete material characteristics and
ADVANCES IN different types of concrete for their appropriate use in construction
CONCRETE CO2: Distinguish concrete behavior based on its fresh and
TECHNOLOGY hardened properties and distinguish concrete behavior based on its
fresh and hardened properties.
CO3: Prepare a comprehensive report on new knowledge in any
one of the topic related to concrete technology and evaluation of
concrete mix designed for a specific construction project.
18CVCTPCAS APPLIED CO1: Use appropriate statistical decision making testing tools in
STATISTICS AND the data analysis.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

OPTIMIZATION CO2: Apply the optimization techniques in construction

TECHNIQUES
16APRDICRM CO1: Define the research problem, identify objectives and develop
RESEARCH a methodology for the research problem
METHODOLOGY CO2: Interpret the literature, analyse the findings of research and
technical reports and thesis
18CVCTPCEF CO1: Apply the concept of time value of money to different real
CONSTRUCTION time situations
ECONOMICS AND CO2: Analyse different economic feasible alternatives using
FINANCE present worth/rate of return methods of investment and
demonstrate construction accounting principles to prepare financial
statements.
CO3: Appraise financial health of construction organizations using
financial evaluation tools and develop a comprehensive investment
proposal on any construction enterprise
18CVCTPCSC CO1: Identify principles of sustainability, assess sustainability
SUSTAINABLE through rating systems and carry out life cycle analysis of a typical
CONSTRUCTION building
CO2: Develop recycling process, characterize marginal materials
and evaluate recycled products
18CVCTPCSM CO1: Characterize and evaluate the strength of masonry materials
STRUCTURAL CO2: Design masonry elements under different loads
MASONRY
18CVCTPERC CO1: Identify the behavior of components of complex RC structures
ADVANCED and apply the concepts to design them.
REINFORCED CO2: Analyse and design components of complex RC structures as
CONCRETE DESIGN per BIS code and generate the reinforcement detailing of the
designed RC structures.
18CVCTOEQS CO1: Outline the importance of Quality and Safety and explain the
CONSTRUCTION various Quality assessing tools as applied to construction industry.
QUALITY AND SAFETY CO2: Understand the importance and need of a safety division and
its role in construction projects and examine ACT 1996, BIS Safety
standards and rules.
18CVCTPEDS CO1: Classify and suggest foundation type for various field and
ADVANCED DESIGN loading conditions, understand the basic requirements of a
OF SUB STRUCTURES satisfactory foundation and the determinants of foundation location
and depth, and proportion shallow foundations
CO2: Estimate individual vertical pile load capacity, pile group
capacity, and pile group efficiency and comprehend the application
and requirements of other types of deep foundations namely drilled
piers, caissons and well foundations.
CO3: Develop an understanding of the various structural features,
assessing the forces, design criteria and choice of foundation for a
port structure and transmission line tower.
18CVCTPEBS CO1: Interpret the physical phenomenon of weather on buildings
BUILDING SCIENCE CO2: Identify and analyse materials suitable for optimal
environmental performance on buildings and design integrated
systems to optimize building performance
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

18CVCTPEPT PRE CO1: Investigate Pre-Engineered building technology and plan

ENGINEERED simple buildings using various types of prefabricated elements
CONSTRUCTION CO2: Design and outline production of precast elements
TECHNOLOGY
18CVCTPEPD CO1: Analyse the difference between the design principles of
PAVEMENT DESIGN flexible and rigid pavements including evaluation of stresses from
AND CONSTRUCTION loads from vehicles, EWL concepts and layered system concepts.
CO2: Prepare flexible pavement design based on laboratory and
theoretical methods as per IRC guidelines.
CO3: Prepare rigid pavement design based on laboratory and
theoretical methods as per IRC guidelines.
CO4: Learn the various equipment to be used for road construction
including some special equipment’s.
CO5: Understand the construction procedure principles for various
layers of flexible pavement like earthwork, GSB, Base course and
surface course including specification and quality control tests.
CO6: Understand the construction procedure principles for various
layers of rigid pavement like laying of pavement quality concrete
including specification and quality control tests.
18CVCTPEPC PRE- CO1: Evaluate the internal stresses of a PSC element, estimate the
STRESSED CONCRETE resultant stress at any section, generate the pressure line and
evaluate the losses in PSC members to determine the effective
prestressing force.
CO2: Analyse design PSC members for flexure shear and torsion,
evaluate anchorage zone stresses and design the anchorage zones
18CVCTPESM CO1: Apply fire/MEP systems to any given building systems as per
BUILDING SERVICES NBC standards.
AND MAINTENANCE CO2: Identity causes of deterioration and plan maintenance
schedule for building systems
18CVCTPEGT SOIL CO1: Identify and prioritize different methods of boring and
EXPLORATION AND sampling techniques for soil exploration with Laboratory and field
GROUND testing of soil exploration samples and prepare the test reports to
IMPROVEMENT evaluate the economics of soil exploration.
TECHNIQUES CO2: Implement different methods of soil improvement
techniques, analyse different case histories of soil exploration
methods and ground improvement techniques.
18CVCTPERE CO1: Identify the various causes of deterioration of structures and
REMEDIAL relate it to the effects and choose the diagnostic methods and tools
ENGINEERING after identifying the levels of distress in structures.
CO2: Formulate a strategy for repair and rehabilitation by
selecting appropriate repair materials and techniques and infer the
results of a case study and provide techniques for repair.
18CVCTPEER DESIGN CO1: Describe the fundamentals of engineering seismology,
OF EARTHQUAKE characterize the earthquake ground motions and prepare the basis
RESISTANT for estimations of seismic forces.
STRUCTURES CO2: Analysis, design and detailing the building components for
seismic resistance as per BIS codal provisions, identify and discuss
the failure patterns of building during earthquake.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

18CVCTPECC CO1: Prepare the project cost estimate and compose the tender /
CONSTRUCTION AND contract documents.
CONTRACT CO2: Identify the appropriate types of contract for a given
MANAGEMENT construction project and interpret claim records to solve arbitration
cases.
18CVCTPJP1 MAJOR CO1: Exhibit application of knowledge, critical thinking and
PROJECT (PHASE - I ) formulate problem in the field of construction materials/ technology
and demonstrate skills on research literature.
CO2: Demonstrate skills in developing research methodologies and
designing and conduction of experiments.
18CVCTPCIT CO1: Comprehend construction company organizational/financial
INDUSTRIAL structure and demonstrate professional skills relevant to
TRAINING construction technology.
CO2: Apply and correlate theory and practice and to communicate
effectively regarding complex Engineering activities and engage in
life-long learning by observing and examining critically and make
corrections cautiously.
18CVCTPJP2 MAJOR CO1: Analyse and interpret the analytical and experimental data
PROJECT (PHASE–2) effectively.
(DISSERTATION AND CO2: Communicate confidently and comprehend and write reports
VIVA-VOCE) effectively.
Name of the MTech in Environmental Engineering
Programme
PEOs PEO1: Possess the knowledge, attitude and skills needed for a
professional career in the field of Environmental engineering and
Management.
PEO2: Continue to advance career through higher education and
professional development.
PEO3: Advocate environmental engineering for societal issues and
sustainable development of society.
Programme Outcomes PO1-An ability to independently carry out research/investigation and
(POs) development work to solve practical problems.
PO2-An ability to write and present a substantial technical
report/document
PO3-Students should be able to demonstrate a degree of mastery
over the area as per the specialization of the programs. The mastery
should be at a level higher than the requirements in the appropriate
bachelor programme.
Course Outcomes Do not attach the scheme please. Only COs for each course is
(COs) required and not the entire syllabus.
The COs for all the courses offered - Core and electives needs to be
given.
18CVENPCCM Applied CO1: Explain concepts behind principles of Physical, Colloidal,
Environmental analytical chemistry, Electrochemistry and microbiology in
Chemistry And Environmental engineering processes.
Microbiology CO2: Apply the principles of Physical, Electrochemistry and
Analytical chemistry in Environmental Engineering process.
CO3: Conduct experiments to evaluate water quality parameters.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

18CVENPCWT Water CO1: Select the sources of water for various water uses and explain
Treatment Technology unit operations and processes of water treatment systems.
CO2: Apply the principles and design water treatment units.
18CVENPCAC CO1: Identify and explain sources, characterization of pollutants
Atmospheric and their effects on outdoor and indoor atmosphere, plume behavior,
Environmental monitoring of pollutants.
Pollution And Control CO2: Develop governing equations for lapse rate, prediction of
pollution concentration in atmosphere (Gaussian, Area model), and
effective stock height and solve problem MMD, wind rose and
concentration prediction, Controlling of particulate and gaseous
pollutants.
CO3: Collect field data, historical data for investigation and analysis
of air and noise quality, prepare report.
18CVENPEWR CO1: Estimate rainfall, optimum rain gauges and consistency with
Water Resources the concept hydrology, Analysis of hydrograph, low and high flows,
Engineering And Estimate discharge in rivers, streams and overland peak flows,
Applied Hydraulics design of storm drains and outfall sewer.
CO2: Apply the concepts of hydraulics to design water mains, steady
state groundwater problems.
CO3: Collect field data, historical data for investigation and analysis
of trend, average quantities
18CVENPELP CO1: Outline the various acts, rules and regulations of environment
Environmental Legal protection.
Aspects And Policy CO2: Explain the role of the Central and state judiciaries, as well as
Guidelines state legislatures and agencies, in formulating and implementing
environmental policy.
18CVENPEGC Global CO1: Identify the various issues pertaining to climate change,
Warming And Climate Outline the various impacts of climate change globally and on
Change regional scale.
CO2: Explain cleaner technologies and carbon sequestration to check
global warming.
18CVENPESH Solid CO1: Understand and apply the basic scientific and sustainability
and Hazardous Waste principles behind waste management, for solving practical waste
Management management challenges
CO2: Understand the fundamental principles of existing and
emerging technologies for the treatment of waste and recovery of
value from waste
CO3: Make an effective oral presentation on recent trends of solid
and hazardous waste management through extensive literature.
18CVENPEEG CO1: Identify the causes for soil pollution and behavior of the
Environmental Geo- pollutants.
Technology CO2: Evaluate and remediate contaminated sites and monitor to
bring natural attenuation
18CVENPERF CO1: Outline the need and application of various alternative fuels, :
Renewable Energy And Explain various methods/technologies to harness various renewable
Alternative Fuels energy sources, : Explain various methods/technologies to harness
various renewable energy sources
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

18ALLPICRM CO1 Ability to write and present a substantial technical

Research Methodology report/document
and IPR CO2 Able to demonstrate a degree of mastery over the area of
specialization
18CVENPCWW CO1: Explain the unit operations and processes for wastewater
Wastewater Treatment treatment.
Engineering CO2: Apply the principles and design unit operations and processes
for wastewater treatment.
CO3: Conduct experiments to evaluate wastewater quality
parameters
18CVENPCRG Remote CO1: Explain the basic principles of remote sensing, Outline the
Sensing and GIS In importance and concept of image processing
Environmental CO2: Explain the basic principles and components of GIS, Apply the
Engineering knowledge of RS-GIS for various environmental problems
CO3: conduct activities on basics in remote sensing and GIS
18CVENPCSC CO1: Apply statistical techniques to examine data.
Statistics and CO2: Solve engineering problems that involve constrained resource
computational allocation.
methods CO3: Solve the governing equations of partial differential in nature
applied to engineering problems.
18CVENPEEA Ecology CO1: Identify different Components of ecosystem and their
And Environmental interactions and interrelationships.
Impact Assessment CO2: Outline the systematic process for environmental impact
assessment along with different methodologies.
CO3: Identify and assess the impacts on environmental attributes
from developmental projects, Explain importance of Public
participation, EMP and DMP in EIA process.
18CVENPETA CO1: Outline the methods and processes employed in environmental
Toxicology & health and risk assessment, explain the key principles of
Environmental Risk environmental health risk characterization
Assessment CO2: Identify risk due to carcinogens and analyze various methods
of risk assessment.
18CVENPENM Non – CO1: Utilize Simulation Models for tracing nonpoint source pollution.
Point Sources Of CO2: Develop management solutions for nonpoint source pollution
Pollution And control, Select best management solutions for nonpoint source
Management pollution control.
18CVENPEEM CO1: Outline issues related to environmental planning and
Environmental sustainable development.
Planning And CO2: Identify various economic tools in evaluation of environmental
Management aspects, Apply quality management principles in Environmental
Auditing.
18CVENPEIW CO1: Outline the effects of industrial wastes on the treatment plants,
Industrial Wastewater water bodies, soil and explain surveying of industrial waste for
Treatment pretreatment programme.
CO2: Explain wastewater treatment in specific industries and design
treatment units.
18CVENPESA Waste To CO1: Understand the different wastes as fuel and conversion devices
Energy to convert waste to energy.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

CO2: Understand the existing technologies for the treatment of

biomass and design the devices
CO3: Appreciate the increasing importance of waste and resource
management in achieving environmental sustainability.
18CVENOESA CO1: Outline the issues related to health and safety through various
Occupational Safety Acts, Identify health problems in different types of industries
And Health CO2: Apply types of accident causation models and Hazard Analysis.
Administration CO3: Identify different classes of fire with suitable fire extinguishing
system.
18CVENPETM CO1: Identify importance and basics of Modelling; different types of
Transport Processes outlets, characteristics of zones, ocean disposal and guide lines,
And Modeling Of single port and multiport system.
Aquatic Systems CO2: Develop governing equations for transport of conservative and
non-conservative contaminant in a aquatic system DO models,
phosphorous model, fate transport through ground water.
CO3: Predict and investigate contaminant extent in aquatic systems.
18CVENPEOM CO1: Know the need, types, basic principles, organizational
Operation & structure, work planning and scheduling and cost estimates of O&M
Maintenance Of and explain the importance of drawings, plans, record keeping, need
Environmental for operational manual and SOP.
Facilities CO2: Identify and list the operational problems in water treatment
and supply facilities, wastewater collection and treatment facilities
and apply preventive and corrective maintenance measures
CO3 Identify and discuss the troubles in air pollution control systems
and suggest the preventive and
control measures
18CVENPEEB CO1: Understand and explain the methods and techniques for
Environmental analysis of environmental samples
Biotechnology CO2: Apply the technologies for bioremediation of soil, water and
air.
18CVENPWP2 Major CO 1: Identify a current problem through literature/field/case
Project studies and define the background objectives and methodology for
solving the same.
CO 2: Design and develop a technology/process to address the
problem
CO3: Implement, analyze and evaluate the technology/process
developed.
CO4: Demonstrate writing and communication skills effectively
18CVENPWP1 CO 1: Comprehend the organization structure and management
MajorProject–Phase-I, processes involved in the organization.
18CVENPCIN CO 2: Explain the state of the art technologies / processes/ materials
Internship/Industrial implemented in the organization.
training CO 3: Demonstrate writing and Communication skills effectively.
18CVENPCSR Seminar CO1: Collect, assimilate, analyze and interpret the technical
information/data pertaining to the recent environmental engineering
related topics through literature survey.
CO 2: Demonstrate writing and Communication skills effectively.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

18CVENNCDM Disaster CO1: learn to demonstrate a critical understanding of key concepts

Management in disaster risk reduction and humanitarian response.
CO2: critically evaluate disaster risk reduction and humanitarian
response policy and practice from multiple perspectives.
CO3: develop an understanding of standards of humanitarian
response and practical relevance in specific types of disasters and
conflict situations.
CO4 critically understand the strengths and weaknesses of disaster
management approaches,
planning and programming in different countries, particularly their
home country or the countries they work in.
18CVENNCPS CO1: Understand what pedagogical practices are being used by
Pedagogy Studies teachers in formal and informal classrooms in developing countries?
CO2: understand what is the evidence on the effectiveness of these
pedagogical practices, in what conditions, and with what population
of learners?
CO3: understand how can teacher education (curriculum and
practicum) and the school curriculum and guidance
Materials best support effective pedagogy?
18CVENNCVE Value CO1: Knowledge of self-development
Education CO2: Learn the importance of Human values
CO3: Developing the overall personality
18CVENNCEW English CO1: Write paragraphs avoiding ambiguity and vagueness
for Research Paper CO2: Understand the key skills are needed when writing a Title,
Writing Abstract, Introduction, and Review of the Literature, Methods,
Results and Discussion with Conclusions.
Name of the M.Tech in Transportation Engineering
Programme
PEOs PEO1: Reveal essential knowledge and skills necessary for a
professional career in Transportation Engineering and management.
PEO2: Demonstrate the analytical, quantitative and interpretative
abilities required for the effective leadership in their chosen field.
PEO3: Exhibit the responsibility in a professional and ethical manner
in their domain and continue career through lifelong learning to
contribute to the societal needs.
Programme Outcomes PO1: An ability to independently carry out research /investigation
(POs) and development work to solve practical problemsPO2: An ability to
write and present a substantial technical report/documentPO3: An
ability to demonstrate mastery in the domain of the specialization of
the program
Course Name Course Outcomes (Cos)
18CVTEPCTE TRAFFIC  Acquire and apply knowledge of traffic, its components, and
ENGINEERING factors affecting road traffic in design.
 Apply the knowledge of sampling data in conducting various
surveys and analysis.
 Interpretation of various survey data analysis and their
applications in traffic engineering.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

 Design new traffic signals & redesign of existing signals and

importance of ITS.
 Understand micro level analysis of traffic flow.
18CVTEBSAS APPLIED  Able to use appropriate statistical method in transportation
STATISTICS & engineering problems.
PROBABILITY  Capable of applying the rule of probability and discrete
distributions in solving problems.
 Capable of testing the goodness of fit by using statistical
decision.
 Able to apply the knowledge of optimization technique and
use statistical software in analysis of transportation
engineering problems.
18CVTEPCPM  Able to acquire and apply knowledge of properties of road
PAVEMENT aggregates and binders in conducting various laboratory
MATERIALS & tests.
CONSTRUCTION  Qualified to design bituminous mix with Rothfutch method
considering the required specifications.
 Understand the application of various equipment used for
road construction
 Able to understand Technology and the construction process
of Bituminous and Cement-Concrete roads
18CVTEPEAM APPLIED  To gain knowledge about assessing suitability of soil as a
SOIL MECHANICS subgrade or as a material for construction of roads and
embankments.
18CVTEPETS  Decide the selection of transportation structures, list the
TRANSPORTATION factors affecting design of various transportation structures
STRUCTURES and generate the input parameters required for design.
 Summarize the design methodology and arrive at design
values for various transportation structures.
18CVTEPEUT URBAN  Able to remember transit modes, management activities and
PUBLIC TRANSPORT demand analysis.
 Capable of selecting different demand management
techniques, intersection management techniques and small
area management.
18CVTEPETP  Estimate travel demand for urban settlements
TRANSPORT  Prepare demand distribution models (gravity models) and
PLANNING modal split models for mode choice analysis.
 Develop and calibrate trip generation rates for specific types
of land use developments.
18CVTEPETY  To list the various surveys required for traffic management
TRANSPORTATION  To identify transportation problem at a given site, analyse the
SYSTEMS survey data and synthesize efficient traffic management
measures
18CVTEPEOT  Use effectively the different optimization techniques and
OPTIMIZATION apply to the appropriate engineering problems.
TECHNIQUES  Encounter, study and solve optimization problems.
18CVTEPLAP  Able to test the aggregates and bitumen for different
ADVANCED PAVEMENT properties
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

MATERIALS  Qualified to design bituminous mix Rothfutch method of

LABORATORY marshal mix design
 Able to analyze the properties of cement and do concrete mix
design.
18CVTEPCAD  List and explain the various factors affecting design and
ANALYSIS AND performance of pavements.
DESIGN OF  Design flexible and rigid pavements.
PAVEMENTS  Understand importance and design concepts of providing
Rural Roads
18CVTEPCPE  Identify the factors influencing performance of pavements
PAVEMENT  Carry out structural and functional evaluation of pavements
EVALUATION AND  Explain the use of models for pavement management
MANAGEMENT  Develop a framework for efficient pavement management
system
18CVTEPCTF  Able to apply the flow theories to field situations such as toll
THEORIES OF booths, diversion measures etc.
TRAFFIC FLOW  Able to understand various car following theories
 Able to apply the concepts of vehicle arrivals to field
situations such as exit ramps, entry ramps etc by queuing
theory
 Able to appreciate the application of GIS techniques in traffic
engineering.
18CVTEPERS  Able to acquire knowledge statistical methods and computer
ROAD SAFETY AND application of accident analysis.
MANAGEMENT  Able to remember the process of road safety audit and the
measures of improving road safety.
 Qualified to evaluate the effectiveness of various
management techniques adopted in reducing road accident.
18CVTEPEIT  Able to appreciate the advantages of ITS and suggest the
INTELLIGENT appropriate technologies for field conditions.
TRANSPORTATION  Able to suggest the appropriate system/s in various
SYSTEMS functional areas of transportation.
 Able to amalgamate the various systems, plan and implement
the applications of ITS.
18CVTEPETR  Able to apply the concepts and tools of microeconomics.
TRANSPORT  Able to understand basic concepts of economic analysis.
ECONOMICS  Understand Economic theory as applied to transport,
including demand, supply and pricing theory and practice.
18CVTEPEGD  Able to design the cross sectional elements of different
GEOMETRIC DESIGN classes of highways.
OF TRANSPORTATION  Able to design the components of horizontal and vertical
FACILITIES alignment of different classes of highways.
 Able to appreciate the various types of intersections and
suggest the required measures.
18CVTEPEMM  Able to have the knowledge in system Dynamics of
TRANSPORTATION simulation
MODELING AND  Able to generate Transportation Models
MANAGEMENT
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CIVIL ENGINEERING

18CVTEPJP1 Major  Show skills in developing research procedures and planning

Project (Dissertation) of experiments
18CVTEPLTC  Study and infer the analytical and experimental data
TRANSPORTATION effectively.
ENGG. COMPUTATION  Communicate effectively, apprehend and write reports
LABORATORY efficiently.
18CVTEPCTS
Transport System
Analysis
18CVTENIIT  Know Transportation Engineering Agency’s Administrative
Internship structure.
(8 Weeks)  Exhibit professional abilities pertinent to Transportation
18CVTEPJP2 Engineering.
Project –  Apply and correlate theory and practice and to communicate
Phase II effectively regarding complex Engineering activities.
 Engage in life-long learning by observing and examining
critically and make corrections cautiously.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Name of the B.E. in Mechanical Engineering

Programme
Program Educational • PEO1 - Graduates shall have successful careers as Mechanical
Objectives (PEO’s) Engineers, lead & manage teams.
• PEO2 - Graduates shall be professional in engineering practice
and socially responsible
• PEO3- Graduates shall be pursuing advanced education,
research and engage in the process of life-long learning.

Programme Specific  Design mechanical engineering systems using classical and

Outcomes (PSOs) state-of-the-art tools.
 Apply principles of energy conversion in design and development
of thermal systems.
 Identify and select appropriate manufacturing processes,
tooling, machinery and apply quality control methods for
production of various components and systems

Programme PO1 to PO12

Outcomes (POs) PO Program Outcome Graduate
Number attribute (GA)
PO1 Ability to apply knowledge of Apply
mathematics, science, and Engineering
Mechanical engineering Knowledge
fundamentals to solve complex
problems in engineering
PO2 Ability to analyze mechanical Problem
engineering problems, interpret data Analysis
and arrive at meaningful conclusions
involving mathematical inferences
PO3 Ability to design a mechanical Design /
system, component, or process to Development of
meet desired needs considering solutions
public health and safety, and the
cultural, societal, and environmental
considerations
PO4 Ability to understand and solve Conduct
complex mechanical engineering Investigations of
problems by conducting Complex
experimental investigations. problems
PO5 Ability to apply appropriate tools and Modern Tool
techniques and understand utilization usage
of resources appropriately to
complex mechanical engineering
activities.
PO6 Ability to understand the effect of Engineer and
mechanical engineering solutions on the Society
legal, cultural, social and public
health and safety aspects.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

PO7 Ability to develop sustainable Environment

solutions and understand their effect and
on society and environment. Sustainability
PO8 Ability to apply ethical principles to Ethics
engineering practices and
professional responsibilities.
PO9 Ability to work as a member of a Individual and
team, to plan and to integrate Team Work
knowledge of various engineering
disciplines and to lead teams in
multidisciplinary settings.
PO10 Ability to make effective oral
presentations and communicate
Communication
technical ideas to a broad audience
using written and oral means
PO11 Ability to lead and manage Project
multidisciplinary teams by applying management
engineering and management and Finance
principles.
PO12 Ability to adapt to the changes and Life-long
advancements in technology and learning
engage in independent and life-long
learning
Course Outcomes The COs for all the courses offered - Core and electives
(COs)

Elements of
Mechanical CO1 Understand the working principles of various mechanical
Engineering systems.
18ME1ESEME/ CO2 Identify practical applications of mechanical elements,
18ME2ESEME systems and processes
CO3 Distinguish the different refrigeration systems, IC
engines, fasteners and power transmission systems
CO4 Compute various performance parameters of IC engines,
velocity ratio of belt and gear drives.
CO 5 Impact of Energy sources on Environment and
sustainability
CO6 Develop basic fabrication skills through hands on
Laboratory Exercises.
CO7 Apply the knowledge of engineering drawing in the
fabrication of sheet metal components

Elements of CO1: Draw orthographic projections of basic geometrical entities in

Engineering Drawing various positions and translate the geometric information of
18ME1ESEED/ engineering objects into engineering drawings.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

18ME2ESEED CO2: Create sketches and Isometric projections of solids.
CO3: Develop lateral surfaces of solids and appreciate their
applications in the industry.
CO4: Use modern engineering tool (CAD software) necessary for
engineering practice.

Engineering
Mathematics – 3 CO 1 Compute solution of a system of algebraic equations.
15MA3GCMAT CO 2 Demonstrate an understanding to Fourier series and
Fourier transforms.
CO 3 Formulate boundary value problems involving one
dimensional heat and wave equation.
CO 4 Employ analytical techniques to solve partial
differential equations with appropriate boundary
conditions.
CO 5 Obtain the extremal of a functional.
Material Science &
Metallurgy
15ME3DCMSM CO 1 Analyse the concepts of mechanical behaviour of
materials and their testing.
CO 2 Apply the concepts of solid solutions, cooling curves
and phase diagrams.
CO 3 Understand the concepts of Iron- Iron carbide
equilibrium diagram and TTT diagrams.
CO 4 List and Discuss ferrous and non-ferrous materials
and their heat treatment processes.
CO 5 Understand the various types, properties, applications
and production methods of Composite materials.
Strength of Materials
15ME3DCSOM CO 1 Understand the basic concepts of stress and strain.
CO 2 Investigate various structural members subjected to
different loading conditions.
CO 3 Evaluate cylindrical shafts subjected to torsional loads.
CO 4 Analyse cylindrical pressure vessels under various
loadings.
CO 5 Determine mechanical properties of materials related
to tensile, compression, torsion, impact, bending and
hardness.
CO 6 Identify and evaluate microstructures of different
materials.
CO 7 Understand heat treatment and Non Destructive
Testing concepts.

Foundry and Welding CO 1 Understand fundamentals of foundry.

Technology CO 2 Understand sand moulding processes and the design of
15ME3DCFWT gating systems and risering.
CO 3 Understand melting concepts and welding
fundamentals.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO 4 Understand metallurgical aspects of welding and
fundamentals of powder metallurgy.
CO 5 Understand the importance of different test carried out
on moulding sand and prepare casted component.
Fluid Mechanics CO 1 Understand the concept of fluid and measure the static
15ME3DCFME forces of the fluids.
CO 2 Understand and apply the concepts of pressure
distribution and buoyancy.
CO 3 Understand and apply Newton's law of motion applied
to fluid element & pressure measuring devices.
CO 4 Understand the concepts of laminar and turbulent flow.
CO 5 Understand the concept of dimensional analysis and
usage of dimensional numbers.
CO 1 Understand the fundamentals concepts of system,
control volume, property, state, process & cycle.
Basic CO 2 Understand and analyse the concept of work, heat and
Thermodynamics the relationship between them.
15ME3DCBTD CO 3 Understand feasibility of the process using Second law
and Entropy.
CO 4 Understand and analyse the role of Real and Ideal gases
in Energy exchanges.
CO 5 Understand the concept of Availability & Irreversibility.

CO 1 Calculate numerical solutions of algebraic equations,

Engineering transcendental equations and ordinary differential
Mathematics-4 equations.
15MA4GCMAT CO 2 Compute solution of one dimensional heat and wave
equation using finite difference techniques.
CO 3 Construct analytic functions and evaluate real and
complex integrals.
CO 4 Apply the principles of least squares to fit a straight
line, parabolic and exponential curve for a given data.
CO 5 Estimate the relation between two variables and
perform regression analysis.
CO 6 Apply the basic principles of probability and probability
distributions.
Applied
Thermodynamics CO 1 Understand the thermodynamic cycles to use for a given
15ME4DCATD application and source of heat
CO 2 Develop ability to plot P-T and P-V diagrams of pure
substance and explain the influence of Temperature
limits on performance of cycles.
CO 3 Analyze problems of practical relevance pertaining to
concepts of refrigeration & air conditioning
CO 4 Understand and analyse the working of nozzle &
diffuser.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO 5 Analyze the concepts and functioning of reciprocating
compressors and their performance.

Kinematics of
Machines CO 1 Apply knowledge of fundamentals of kinematics and
15ME4DCKOM common mechanisms.
CO 2 Analyze graphically, velocity and acceleration in various
four bar mechanisms.
CO 3 Compute various parameters of gear teeth for different
gear profiles.
CO 4 Design gear trains for power transmission.
CO 5 Synthesize cam profiles for different applications.

CO 1 Apply concepts of mechanics of materials to estimate

Design of Machine the stresses in a machine element and predict failure of
Elements-1 components based on theories of failure
15ME4DCDM1 CO 2 Understand fatigue failure in machine elements and
factors affecting it
CO 3 Design shafts, keys, splines and couplings power
transmission
CO 4 Design cotter, riveted & welded joints
CO 5 Design power screws and threaded fasteners
Machine Tools &
Machining CO 1 Understand the fundamentals of metal cutting and
15ME4DCMTM selection of cutting tools and materials.
CO 2 Understand the constructional features and working of
various machine tools.
CO 3 Understand the basic and super finishing operations.
CO 4 Compute machining time for various machining
operations.
CO 5 Understand the principles and operations of Non-
conventional machining processes.
CO 6 Produce simple components using various machine
tools.
Mechanical
Measurement & CO 1 Understand the various standards of measurements
Metrology and usage of different measuring devices.
15ME4DCMMM CO 2 Understand the system of limits, fits, tolerances and
gauging.
CO 3 Understand the measurement systems and
transducing elements and intermediate devices.
CO 4 Understand the principles and measurement of
various phenomena like force, torque, pressure,
temperature and strain.
CO 5 Understand the application of measurement systems
and nano measurements principles.
CO 6 Demonstrate calibration of various physical
parameters and phenomena.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Management &
Entrepreneurship CO 1 Compare various management approaches, planning and
16ME5DCMAE decision strategies
CO 2 Organize the staffing and structure for an organization
CO 3 Make use of communication methods, leadership styles for
building effective
control in an organization
CO 4 Develop entrepreneurial ideas
CO 5 Identify the institutions supporting the Small scale industries
CO 6 Plan the various steps involved in setting up a business
enterprise

Design of Machine CO 1 Solve for stresses In curved beams, springs, clutches and
Elements-II brakes
16ME5DCDM2 CO 2 Deduce equations for stresses in curved beams, springs and
gears
CO 3 Estimate the load carrying capacities of curved beams, helical
and leaf springs and bearings.
CO 4 Compare different types of clutches, brakes, springs, gears
and power
transmission elements
CO 5 Design gears, springs, clutches, brakes and bearings
CO 6 Choose power transmission elements like belt drives, chain
drives, rope drives and the bearings for different applications

Computer Aided CO 1 Choose appropriate views to give information about machine

Machine Drawing parts.
16ME5DCCMD CO 2 Sketch Sectional views to improve clarity and reveal interior
features of Machine parts.
CO 3 Identify relationships of each part to the others in Assemblies
CO 4 Construct Assembly drawings showing all parts in their
operational positions
CO 5 Create Geometric Models of Mechanical Parts and assemblies
employing CAD tools.
CO 6 Apply principles of GD&T to communicate Design intent
unambiguously

Dynamics of CO 1 Determine the forces in mechanisms for static equilibrium.

Machines CO 2 Design a flywheel based on energy fluctuation.
16ME5DCDOM
CO 3 Estimate the power in bearings and belt drives and the power
of engine using turning moment diagram
CO 4 Analyze the effect of gyroscopic couple on rotors, ships, aero
planes and
automobiles and Governors for speed control.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO 5 Solve problems concerning static and dynamic balancing of
systems involving rotating masses and partial balancing of
reciprocating engines
CO 6 Evaluate primary and secondary unbalanced forces in
reciprocating engines.

Fundamentals of Heat CO 1 Identify the mode of heat transfer

Transfer CO 2 Apply principles of heat transfer to thermal systems
16ME5DCFHT
CO 3 Analyze conduction heat transfer phenomenon for transient
processes
CO 4 Determine convective heat transfer for free and forced
convection.
CO 5 Formulate the heat transfer process in heat exchangers for
parallel and counter flow arrangement
CO 6 Evaluate the parameters of radiative heat exchange process
between surfaces.

CO 1 Apply basic concepts of continuum mechanics to elasticity

problems
CO 2 Choose suitable solution strategies for boundary value
problems
CO 3 Determine stresses and displacements in simple solids such as
pressurized cylinders, shrink fitted cylinders, rotating disc and shaft,
Theory of Elasticity plate with hole
16ME 5DE TOE
CO 4 Examine behavior of non-circular shafts and thin tubes under
torsion.
CO 5 Utilize MATLAB or equivalent software to simulate boundary
value problems
CO 6 Develop analytical Solutions For Problems of Limited
Complexity

I.C. Engines CO 1 Compare ideal and real thermodynamic cycles and different
16ME 5DE ICE types of fuels with respect to their advantages and limitations
CO 2 Evaluate the engine parameters considering theoretical and
actual cycles
CO 3 Analyze the current and future SI and CI engine designs,
combustion processes, effect of operating variables on engine
performance, effect of dissociation, variable specific heats, and
exhaust dilution on thermodynamic cycles, chemical structure of
fuels
CO 4 Identify the requirements of combustion process for SI and CI
engines
CO 5 Discuss modern developments of engines
CO 6 Survey methods to reduce knocking tendency and means to
control pollution
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO 1 Classify the various Non-Traditional Machining process to
machine new novel materials.
CO 2 Choose an appropriate Non Traditional Machining technique to
machine the given material
CO 3 Compare material removal rate for abrasive jet machining and
Non Traditional abrasive water jet machining
Machining CO 4 Identify the Process parameters affecting the functioning of
16ME5DENTM various Non- Traditional Machines.
CO 5 List the advantages, limitations & applications of different
Non-Traditional Machines.
CO 6 Inspect 3 D printing, laser engraving and water jet machining
to experience a few Non Traditional process.

Incompressible Fluid CO 1 Distinguish between the inviscid and viscous flow

Dynamics characteristics in the
16ME5DEIFD background of aerodynamics
CO 2 Explain the concepts of two dimensional incompressible and
irrotational flow with the help of mathematical concepts
CO 3 Analyze the theoretical and practical design aspects involved
in the aerodynamic systems
CO 4 Apply momentum principles for viscous flows
CO 5 Evaluate the low speed and high speed flow effect on
aerodynamic systems
CO 6 Examine the design aspects during the flow over airfoils and
finite span wing

CO 1 Apply principles of classical mechanics to the study of human

motion
CO 2 Analyze human movement from experimental data
Bio-Mechanics of CO 3 Identify the muscle actions that cause movement
Human Movement
16ME5DEBHM CO 4 Discuss the internal and external forces acting on the body
during typical human activities
CO 5 Elaborate the methods and limitations of different
experimental and analytical techniques used.
CO 6 Model simple human movements

CO 1 Identify the components of control systems given real life

situation
CO 2 Estimate the response characteristics and parameters related
Control Engineering to stability of systems.
16ME6DCCOE CO 3 Develop transfer function models and state-space models of
single input single output, linear time invariant systems
CO 4 Analyse the time response of first and second order systems
CO 5 Evaluate the stability of systems using various methods
CO 6 Design PID controllers
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Mechanical Vibration CO 1 Analyze the vibratory systems for natural frequency

16ME6DCMEV CO 2 Predict the mode shapes for un-damped vibratory systems.
CO 3 Solve differential equations concerned to different vibratory
systems
CO 4 Identify vibration measuring techniques for varying
parameters
CO 5 Formulate mathematical equations for different types of
vibrations for single and multi-degree freedom systems.
CO 6 Apply the governing equations to automotive applications,
shafts, shafts with disc.

Modelling & Finite CO 1 Apply basics of Theory of Elasticity to continuum problems.

Element Analysis CO 2 Formulate finite elements like bar, truss and beam elements
16ME6DCMFE for linear static structural analysis.
CO 3 Develop models for 2D and axisymmetric finite elements and
1D heat transfer
CO 4 Solve problems of limited complexity in structural and heat
transfer domain
CO 5 Utilize finite element software to simulate practical problems.
CO 6 Identify the degree of freedom of elements to be modeled and
boundary conditions to be incorporated.

CO 1 Identify the various metal working processes, based on

process parameters.
CO 2 Discover the various process capabilities to establish the
relation between them.
CO 3 Solve relevant real world problems concerning Rolling, drawing
Metal Forming and extrusion of metals.
16ME6DCMTF CO 4 Formulate mathematical equations for Rolling, drawing and
extrusion of metals
CO 5 Choose the appropriate die for the various functions of sheet
metal working process
CO 6 Categorize the different non-traditional forming processes.

CO 1 Classify typical designs of turbo machines.

CO 2 Compare homologous machines by using dimensional analysis.
CO 3 Apply Euler's equation for turbomachinery to analyze energy
transfer in turbines and compressors.
Turbo Machines CO 4 Evaluate the performance parameters of pumps, compressors,
16ME6DCTUM turbines on a 1-D basis with the use of velocity triangles
CO 5 Make use of laboratory equipment’s for conducting
experiments.
CO 6 Estimate the data in design and development of
Turbomachines.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO 1 Develop representation of robots in workspace.

CO 2 Solve for kinematics of robot manipulators
CO 3 Plan trajectory for robot motion
CO 4 Select actuators, sensors and controllers for robotic
Fundamental of applications
Robotics CO 5 Design simple robots
16ME6DEROB CO 6 Build simple robots

CO 1 Plan to use Operations Management And Strategies for

managing operations
Production & CO 2 Identify suitable evaluation methods for capacity planning
Operation CO 3 Choose appropriate scheduling system for operations
Management
16ME6DEPOM CO 4 Compare various types of inventory control
CO 5 Develop various concepts for designing a product
CO 6 Distinguish between several behavioral dimension

CO 1 Select the appropriate solar concentrators and tracking

methods for harnessing solar energy
CO 2 Estimate solar flux received from sun on flat and tilted
surfaces, efficiency of flat plate and parabolic collectors
CO 3 Flat plate and parabolic collectors for temperature distribution,
Solar geometry and methods of measuring solar radiation and wind
Renewable Energy & turbine designs
Sustainability CO 4 Experiment with flat plate and parabolic collectors and P-V
16ME6DERES panel set up
CO 5 Alternate sources of energy and systems to generate power
using them, methods of storing solar energy and methods of
generating power using Bio Mass
CO 6 Examine the domestic and industrial applications of Solar
energy.

CO 1 Analyze stresses and strains that exist within a body subjected

to general type of loading
CO 2 Predict the failure of components under multi axial loading
based on yielding criteria.
Theory of Plasticity CO 3 Solve analytically the elastic-plastic problems of bending and
16ME6DETOP torsion loads
CO 4 Examine the theories of plastic flow, stress-strain relationships
in plastic flow and the mechanism of plastic deformation
CO 5 Formulate 1-D elastic-plastic boundary value problems with
basic knowledge of computational aspects.
CO 6 Utilize finite element simulation tools to solve plasticity
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

problems with limited complexities (using Alternate Assessment
Tool-AAT).
CO 1 Estimate the natural frequency for longitudinal, torsional and
transverse systems.
CO 2 Make use of Photo elasticity principles for stress analysis.
CO 3 Determine Principal stresses and strains in members subjected
DESIGN LAB
to combined loading
16ME6DLDES
using Strain Rosettes and compare it with theoretical values
CO 4 Examine the balancing of rotating masses
CO 5 Experiment with different Governors and calculate equilibrium
speed,
sensitiveness, power and effort
CO 6 Test for gyroscopic behavior under free and forced precession

CO1: Summarize how mechatronics integrates knowledge from

different disciplines in order to realize engineering and consumer
products.
CO2: Understand the fundamentals of simple electromechanical
sensors.
CO3: Analyze the general actuation elements of hydraulics,
Mechatronics pneumatics & electrical systems.
16ME7DCMCT
CO4: Study of various logical elements involved in different multi
vibrators.
CO5: Understand the functioning of various components of signal
conditioning system.
CO6: Make use of 8085 microprocessor for simple programming

CO1: Classify projects and identify the phases of the life cycle of
Project Management project.
& Financial CO2: Plan a project, identify and estimate the resources required
Accounting for its completion
16ME7DCPMF
CO3: Create scheduling charts for projects and estimate critical path
and project Completion time.
CO4: Analyze the project with the aid of economic tools.
CO5: Prepare various types of budgets.

CO1 APPLY algorithmic problem solving skills

Numerical CO2 CREATE functions, scripts, programs which solve medium
Applications in complex engineering tasks.
Mechanical
CO3 DEVELOP solutions to mathematical models applied to practical
Engineering Lab.
16ME7DLNAM Mechanical engineering problems.
CO4 UTILIZE Matlab software to simulate practical problems

Product Design &

Manufacturing CO1 Understand the characteristics of successful product
16 ME 7DE PDM development
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO2 Identify and collect customer needs
CO3 Generate concepts, select and test
CO4 Understand the importance of Architecture and industrial
design
CO5 Decide for prototype
CO6 Understand economics of projects

Hydraulics and
Pneumatics 1. Understanding the operating principle, performance and selection
16ME7DEHAP procedure of hydraulic elements and evaluate pump and actuator
performance and justify selection of pumps and actuators for
various applications.
2. Understand the working principle of various control elements and
applying them for designing a circuit for a given application.
3. Design and analyze hydraulic circuits.
4. Understand the working of pneumatic systems and their control.
5. Identify various components of Electro-pneumatic system &
Trouble shooting of the pneumatic and hydraulic systems.
6. Design of pneumatic and hydraulic circuits for the industrial
applications.
7. Virtual simulation of safety circuits and its effectiveness.
8. Evaluation of performances of fluid power components.

Tribology & Bearing CO 1 Describe engineering significance of tribology, regimes of

Design lubrication and understand the principle of viscosity measurement
16ME7DETBD CO 2 Design concept of lightly loaded journal bearing and pressure
development mechanism.
CO 3 Apply the Reynolds 2D equation for full journal bearing and
slider bearings operating under hydrodynamic condition and
estimate design parameters.
CO 4 Estimate the design parameters of Hydrostatic bearings
CO 5 Choosing the materials for bearing construction
CO 6 Understand the working principle of Magnetic bearings and
develop design solutions.

Additive CO1:Compare various processes of AM and with other

Manufacturing manufacturing process
16ME7DEADM CO2:Analyze the process parameters for manufacturing AM parts
CO3:Make use of the technology available to recognize processes
CO4:Select a ideal process plan for AM part manufacturing
CO5:Plan the operations and substantiate the use of AM
CO6:Recognize the various parts of machines that involve AM
processes

Advanced Robotics
16ME7DEARB CO 1 Solve for velocity and static forces in manipulators
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO 2 Formulate dynamic equations of robot manipulators
CO 3 Design controllers for robot motion
CO 4 Apply the techniques of computer vision to robot manipulation
CO 5 Select proper actuators, drives and sensors for robot design
CO 6 Design and build simple robots

Fracture Mechanics
16ME7DEFRM CO1: Understand the concept of linear elastic fracture mechanics
and apply it to stress analysis of a cracked body
CO2: Compute crack tip stress intensity factor for 2-D and 3-D
cracked bodies made up of linear elastic materials
CO3: Understand the concept of elastic plastic fracture mechanics
CO4: Understand energy approach and apply to stress analysis of
fatigue cracks
CO5: Understand various crack growth laws and apply to spectrum
loading
CO6: Understand the various fracture toughness measuring
techniques and correlate with fracture mechanics

16ME7IEOPR
Operation Research CO1 Formulate a real-world problem as a mathematical
programming model.
CO2 Formulate and solve transportation models by applying
cost cutting strategies.
CO3 Formulate and solve assignment models and travelling
salesmen problems.
CO4 Construct a project network and apply program evaluation
review technique and critical path management.
CO5 Employ Game theory for strategic decision making
Nano Technology
16ME7IENAT CO1 Understand the history of nanotechnology, its relevance
w.r.t. multi-disciplinary subjects
CO2 Identify the various experimental tools available for
investigating & manipulating at the nano scale
CO3 Distinguish the various nano-particles, their synthesis &
applications
CO4 Compare the polymeric and metallic nano-composites
CO5 Choose the nano-composites for various applications
such as, electrical, mechanical applications and so on.
CO6 Identify the various nano-sensors & their applications.
Project Work – Phase
1 1 Apply critical thinking in identifying problems & develops
16ME7DCPW1 innovative and creative ideas/solutions/options employing
appropriate quantitative methods and use relevant information
technology
2 Exhibit honesty and integrity and sensitive to ethical and diversity
issues and behaves in an ethical and professional manner 3
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Demonstrate effective leadership abilities for the purpose of
organizational growth and change.
4 Effective interpersonal skills and the ability to work successfully in
teams of diverse composition
5 Construct coherent written forms of communication and present
effective oral forms of communication.
6 Understand the implication of solutions provided on society and
environment.

CO 1 Understand and apply the LPP method for practical problems.

CO 2 Analyse and apply the transportation and assignment methods
for
practical problems.
Operation Research
16ME8DCORE CO 3 Analyse and develop appropriate models for gaming problem.
CO 4 Analyse sequencing of machines using Johnson’s rule and
graphically.
CO 5 Analyse replacements of items that deteriorate with time.

CO 1 Ability to comprehend the importance of IPR, Constitutional

aspects of IP, Patent Systems of various countries
CO 2 Explain Patent system in India, procedure to obtain Patent,
Patentable and non-patentable inventions, transfer of Patent and
Intellectual Property Infringement of Patent
Rights
16HS8DCIPR CO 3 Illustrate Copyrightable works, understand Indian Copyright
Law and infringement of Copyright
CO 4 Appreciate Trademark System, procedure for registering
Trademark and infringement of Trademark

CO 1 Make students understand the working principle,

Advantage and Applications of various Non-Destructive
methods available for testing engineering components.
CO 2 Identify, Classify, Compare and Select various NDT method
Non Destructive
or a combination of NDT methods for a given application.
Testing
CO 3 Conduct a suitable NDT on a component with defect and
16ME8DENDT
compare it with a defect free component.
CO 4 Study, Understand and present a case study of NDT
application in a real world scenario.
CO 5 Design a solution using various NDT method for Society
practical problems.

CO 1 Understand the working of various components used in steam

power plant, diesel power plant, hydroelectric power plant and
Power Plant
nuclear power plant and the effect of power and wastes produced
Engineering
on society, public health and environment.
16ME8DEPPE
CO 2 Identify various equipment required for power generation in
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

various power plants.
CO 3 Design chimneys for power generation in steam power plant
and layout of diesel engine power plants.
CO 4 Determine condenser efficiency, quantity of cooling water in
steam power plant, cost of diesel power plants, power produced by
diesel power plants hydroelectric power plants and nuclear power
plants.
CO 5 Select appropriate devices for storage of fuel, combustion of
fuel, handling of fuel, and improve the plant performance.
CO 6 Estimate load factors, plant capacity, utilization factor,
demand and supply.
CO 7 Examine the feasibility of project.
CO 8 Comparison of site selection criteria for various power plants
CO 9 Elaborate an environmental effects of power generation
CO 10 Literature survey on latest developments on power
generation.

Understand the construction and functions of

CO1
components of IC engine
Understand the Vehicle performance parameters and
CO2
improving them
Automotive Understand the different engine systems and
CO3
Engineering transmission systems used in IC engines
16ME8DEAUE Understand the Propeller shaft and final drive
CO4
systems.
Application of basic electronic components in
CO5 automobiles. Alternate energy and propulsion
systems.

CO1:Compare the different forms of organizations and

measure returns and risk under different economic
conditions.
Financial CO2:Estimate the working capital required to manage a firm’s
Management working capital efficiently.
16ME8IEFIM CO3:Propose suitable form of long term financing.
CO4:Examine a firm’s financial statement and evaluate its
performance
CO5:Prepare cost sheets and compute variances
CO6:Plan different types of budgets

Understanding Individual behavior, differences and its

CO1
effects
Organizational Understand importance of learning and role of
Behaviour CO2
perception
16ME8IEORB CO3 Importance of motivation and groups
CO4 Understanding Conflict and stress management
CO5 Basics of communication
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

1 Apply critical thinking in identifying problems & develops

innovative
and creative ideas/solutions/options employing appropriate
quantitative methods and use relevant information technology
2 Exhibit honesty and integrity and sensitive to ethical and diversity
issues and behaves in an ethical and professional manner
Project Work – Phase
3 Demonstrate effective leadership abilities for the purpose of
2
organizational growth and change.
16ME8DCPW2
4 Effective interpersonal skills and the ability to work successfully in
teams of diverse composition
5 Construct coherent written forms of communication and present
effective oral forms of communication.
6 Understand the implication of solutions provided on society and
environment.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Name of the M.Tech in Manufacturing Science & Engineering

Programme
PEOs 1. Graduates will have knowledge in the discipline of Materials
and Manufacturing processes with hands on practice in using
advanced material characterization and advanced
manufacturing technology to address real world engineering
problems.
2. Graduates will be successful in their career independently
or in a group as materials and manufacturing professionals in
an Industry/Research /Academia.
3. Graduates will be proficient in their communication,
presentation skills and will be prepared to engage in the
process of life-long learning through professional development
and research.
Programme Outcomes 1. An ability to independently carry out research /investigation
(POs) and development work to solve practical problems.
2. An ability to write and present a substantial technical
report/document.
3. An ability to demonstrate mastery in the area of
Manufacturing Science and Engineering at a level higher than
the undergraduate program in Mechanical Engineering.

Course Outcomes (COs) I SEMESTER

CORE
Machining Science & Technology(18MEMSPCMS)
CO1: Analyze cutting forces in turning and learn problem
solving skills in both analytical and graphical methods.
Categorize cutting force measuring instruments and choose
them for a particular application. Outline tool wear, tool
geometry, tool temperature and parameters influencing tool
life. Estimate machining costs
CO2: Summarize nontraditional machining techniques and
highlight the importance of NTM. Illustrate mechanism of
material removal describe the process parameters,
advantages & limitations, applications and model for material
removal rate for industrially relevant NTM techniques.
Describe advanced machining techniques
CO3: Make oral presentations and prepare report on analytical
and simulation models
Materials Characterization (18MEMSPCMC)
CO1: Analyze qualitatively and quantitatively different
materials structure using advanced diffraction techniques, XPS
instrumentation and patterns
CO2: Explain and analyse materials using advanced
spectroscopy techniques
CO3:Select appropriate characterization methods to the
analysis and characterization of materials
CO4:Read and Write technical report/document regarding
material characterization
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Plasticity and Metal Forming(8MEMSPCPM)
CO1: Describe elastic and plastic behavior of metals.
Differentiate metal working techniques and describe
parameters influencing metal working
CO2: Estimation of forming loads in forging, rolling, extrusion
and drawing. Analyze process variables
CO3: Make oral presentations and prepare report on analytical
and simulation models
Composite Materials (18MEMSPCCM)
CO1: Identify the different reinforcement and matrix materials
to synthesis components which find its innovative applications
and service conditions.
CO2: Develop mathematical models for evaluating mechanical
properties and failure criteria laminates. Failure analysis and
design considerations of laminates
CO3: Analyze the current research and present case studies
with technical reports.

ELECTIVE-1
Nano Technology(18MEMSPENT)
CO1: Understand the classification and fabrication of nano-
composites, identify their applications
CO2; Analyze physical, mechanical and thermal properties of
nano composites properties using modern tools such as SEM,
XRD, DMTA, TGA, DSC
CO3: Present case studies with technical reports on current
research in the relevant field
Total Quality Management (18MEMSPETQ)
CO1: Describe management policies of quality control and
implementation of quality standards. Develop an
understanding on the necessary information and skills needed
to manage, control and improve quality practices in the
organization through TQM Philosophy
CO2: Apply the reactive and proactive improvement
methodologies for problem solving in organizations.
Demonstrate the importance of team work in problem solving
processes. Analyze implementation of quality by design
CO3: Present case studies with technical reports on current
research in the relevant field
Corrosion and Surface Engineering (18MEMSPECS)
CO1: Analyze different forms of corrosion, corrosion
mechanisms in industries and selection of different corrosion
resistance materials by conducting various corrosion tests to
minimize industrial corrosion.
CO2: Corrosion control using conventional & special coating
techniques and coating characterization.
CO3: Present case studies with technical reports on current
research in the relevant field

ELECTIVE-2
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Advanced Joining Process (18MEMSPEAJ)
CO1: Classify various welding processes according to their
importance and evaluate best method of inspection of welds
CO2: Identify weld symbols and their need, Design the welded
joints with conventional and computer aided procedures.
Challenges in welding of composites and dissimilar metals
CO3:Analyze the current research and present case studies
with technical reports

Additive Manufacturing Technology(18MEMSPEAT)

CO1; Analyze additive manufacturing systems for new product
development and give a detailed technical report on current
research
CO2: Evaluate the best additive manufacturing method for
product development make use of current software tools
CO3: Give a detail presentation of current additive
manufacturing systems used in various industries with some
case studies
Advanced Manufacturing Processes (18MEMSPEAM)
CO1: Describe plastic injection molding and metal injection
molding techniques to synthesize various components.
Application of Plastic forming techniques and High velocity
forming techniques for modern materials
CO2: Illustrate mechanical alloying and powder metallurgy
processes for ceramic materials.
CO3: Present case studies with technical reports on current
research in the relevant field
LAB
Material Characterization And Manufacturing
Technology Lab (18MEMSPCMM)
CO1: Analyse microstructure and characterize elements,
compounds of materials
CO2: Estimate Process capabilities for different materials
using abrasive water jet and wire EDM
CO3: Understand 3D Scanning and 3D printing of simple
components
Research Methodology(18ALLPICRM)
CO1: Ability to write and present a substantial technical
report/document
CO2: Able to demonstrate a degree of mastery over the area
of specialization

II SEMESTER
CORE
Tool Engineering Design (18MEMSPCTD)
CO1: Analyze tool design procedure, forces in turning, milling
& drilling and design of tools for the same. Choose inspection
tools and design them
CO2: Design of jigs and fixtures and press tools for blanking,
bending and drawing operations. Construct tool drawings.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO3: Make oral presentations and prepare report on
advancements in tooling
Industrial Robotics(18MEMSPCIR)
CO1: Analyze the manipulator design including actuator, drive
and sensor issues
CO2: Students will be familiarized with the kinematics of
robot, trajectory plan and document the motion diagrams for
Industrial robots
CO3: Students will be familiarized with Micro and Nano
robotics and its applications
Finite Element Modeling (18MEMSPCFM)
CO1: Apply fundamentals of theory of elasticity to continuum
problems.
CO2: Formulate finite elements like bar, truss and beam
elements for linear static structural analysis.
CO3: Develop models for 2D and axisymmetric finite elements
CO4: Solve problems of limited complexity in structural
domain
CO5: Utilize finite element software to simulate practical
problems

ELECTIVE III
Computer Control Of Manufacturing Systems
(18MEMSPECC)
CO1: Illustrate NC and CNC machining centers and categorize
the interpolators, control loops and feedback devises used in
manufacturing systems and give a detailed technical report on
current research trends
CO2: Compose Part programming using Manual and APT for
deferent machining operations
CO3: Describe design principles and optimize controller
motion for a modern machining scenario and give a detailed
technical report
Design For Manufacture (18MEMSPEDM)
CO1; Selection of materials and processes for designed
component
CO2: Design of inspection, cutting tools & fasteners, casting,
injection moulding & die casting, sheet metal operation and
powder metallurgy tools
CO3: Make oral presentations and prepare report on current
research on product design
Industrial Design and Ergonomics(18MEMSPEID)
CO1: Illustrate general approaches to the man- machine
relationship and design of work station and analyze various
control and displays in various industries give a oral
presentation
CO2: Design and develop an effective expert systems for
ergonomic design and Identify visual effects of line & form and
analyze mechanics of seeing psychology with some case
studies
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO3: Design an industrial equipment in perspective of
ergonomics and give a detailed technical reports on ergonomic
standards used in industries
ELECTIVE IV
Advanced Engineering Materials(18MEMSPEAE)
CO1: Describe different types of advanced ferrous,
nonferrous, semi & super conducting materials with properties
and applications in engineering components
CO2: Categorize polymeric materials and ceramic materials
with various processing techniques
CO3: Present case studies with technical reports on current
research in the relevant field
Nondestructive Testing (18MEMSPEND)
CO1:Describe various NDT techniques, equipment,
applications and limitations
CO2: Selection, application of appropriate NDT method for
various components using NDT standards and interpretation of
defects
CO3: Present case studies with technical reports on current
research in the relevant field
Micro Electro - Mechanical Systems (Mems-
18MEMSPEME)
CO1: Classify and apply the concepts of MEMS based on its
applications. Synthesize the designed MEMS for pre defined
application.
CO2: Modeling of MEMS to evaluate better performance.
Identify control mechanisms of MEMS. Select a system
packaging based on its performance
CO3:Present case studies with technical reports on current
research in the relevant field
LAB
CNC and Robotics Lab (18MEMSPCCR)
CO1: Write and simulate CNC program for Turning and Milling
CO2: Document and report programs for CNC and Robot
CO3: Hands on programming and execution of Milling and
Turning operations

Institution Engineering Electives offered by

Manufacturing Science and Engineering
Computational Methods in Engineering Analysis
(18MEMSOECE)
CO1: Construct and analyze mathematical models of physical
applications. Find the roots of polynomials, algebraic,
transcendental or simultaneous system of equations in science
and engineering problems
CO2: Integrate and differentiate a function for given set of
tabulated data with greater accuracy for engineering
problems. Solve system of linear algebraic equations and
compute eigen values and eigen vectors of matrices
CO3: Present case studies with technical reports on current
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

research in the relevant field
DESIGN OF EXPERIMENTS(18MEMSOEDE)
CO1: Choose an appropriate experiment to evaluate a new
product design or process improvement through
experimentation strategy, data analysis, and interpretation of
experimental results
CO2: Plan, design, and conduct experimental investigations
efficiently and effectively
CO3 Understand strategy in planning and conducting
experiments and review recent advances in experimentation
and give a oral presentation

III SEMESTER
Internship (18MEMSPCNT)
CO1: Understand the structure, culture, various industrial
practices, professional ethics and working of an industry and
gain awareness of possible careers.
CO2: Apply critical thinking in identification and solution of
problems by integrating knowledge and skills. Perform
efficiently in taking up assigned responsibilities. Communicate
effectively and professionally
CO3: Prepare technical reports and make oral presentation
Project Work (I Phase) (18MEMSPCPJ-1)
CO1: Choose a problem applying relevant knowledge and
skills acquired during the course in the domain. Formulate the
specifications of the project work, identify a set of feasible
solutions and prepare and execute project plan considering
professional, cultural and societal factors. Conclude problem
solving methodology using literature survey and present the
same
CO2: Develop experimental planning and use appropriate
techniques and tools to conduct experiments. Evaluate and
critically examine the outcomes. Conclude the results and
identify relevant applications.

Technical Seminar (18MEMSPCSR)

CO1: Identify and select a research/journal paper related to
materials, characterization, manufacturing or analysis
CO2: Understand the content of the selected research/journal
paper
CO3: Prepare a technical seminar report and communicate
effectively through oral presentation using multimedia tools

Program Core
Product Lifecycle Management (18MEMSPCPL)
CO1: Analyze product lifecycle management systems for new
product development and give a detailed technical report on
current research
CO2: Evaluate and make use of the best tools and practices
for product development make use of current software tools
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

and evaluation models
CO3: Give a detail presentation of current PLM based systems
and architecture for manufacturing and allied industries with
some case studies

IV SEMESTER
Program Elective (Management Stream)

Business Analytics(18MEMDOEBA/18MEMSOEBA)
CO1: To analyze data in realtime environments for meaningful
decision making in industries.
CO2: To predict events and develop plans for new processes
and system analysis.
CO3: To improve the process through optimization techniques
for quick decision making.
Project Work (PHASE-II) (18MEMSPCPJ-2)
CO3: Document the findings and write a report in the
prescribed format. Demonstrate working knowledge of ethics
and professional responsibility at different stages such as
problem formulation, designing the experiments,
implementation and presentation. Present and publish the
outcomes of the project work in a journal/conference
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Name of the Programme M. Tech. in Machine Design
Programme Educational Objectives 1. Graduates will have knowledge in the
(PEOs) discipline of Machine Design with
hands on skill in using modern
engineering tools to address real world
engineering problems and be socially
responsible.
2. Graduates shall be successful in their
career as analysts and designers of
structural components of conventional
and advanced materials, participating
in a team or individually in an industry,
research or academia.
3. Graduates shall be proficient in their
communication, presentation and will
be prepared to engage in the process
of life-long learning through
professional development and
research.
Programme Outcomes (POs) 1. An ability to independently carry out
research /investigation and
development work to solve practical
problems.
2. An ability to write and present a
substantial technical report /
document.
3. An ability to demonstrate mastery in
the area of 'Machine Design', at a level
higher than the undergraduate
program in 'Mechanical Engineering'.
Course Outcomes (COs)
ADVANCED MECHANICS OF SOLIDS CO 1: Apply basic concepts in continuum
(18MEMDPCAS) mechanics of solids viz. Stress and strain
tensors, equilibrium, compatibility and
constitutive equations and methods of
solution to elasticity problems
CO 2: Evaluate stresses and
displacements in simple solids such as
pressurized cylinders, shrink fitted
cylinders, rotating disc and shaft, plate
with hole and non-circular shafts and thin
tubes under torsion.
CO 3: Use MATLAB or equivalent software
to evaluate and plot particular solutions.
CO 4: Apply principles of continuum
mechanics to design a structure or
component to achieve desired
performance under realistic constraints.
DYNAMICS AND MECHANISM DESIGN CO1: Carry out mobility analysis of
(18MEMDPCDM) mechanism.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO2: Synthesize mechanisms for function
generation and path generation.
CO3: Analyze the Dynamics of Mechanical
systems using D’Alemberts, Lagrange’s,
and Hamiltons Principles.
CO4: Demonstrate the skills to use
software to analyze practical mechanisms.
ADVANCED MACHINE DESIGN CO1: Predict failure of engineering
18MEMDPCAD components using appropriate failure
theories.
CO2:Identify and explain the types of
fractures of engineered materials and their
characteristic features;
CO3: Estimate life of components using
stress life, strain life and LEFM approach.
CO4: Analyze the machine members
subjected to spectrum loads.
FINITE ELEMENT METHOD CO1: Develop governing equation for a
18MEMDPCFE mechanical system and apply principles of
variation and integral formulation to
formulate finite element equations.
CO2: Formulate one dimensional, two
dimensional and axisymmetric elements.
CO3: Analyse problems related to 1D, 2D
and solids of revolution.
CO4: Develop mass matrices and compute
eigen values and eigen vectors for a 1D
and 2D analysis of mechanical
components.
CO5: Demonstrate the use of commercial
FEA packages to solve complex practical
problems.
CO1: Identify the role of matrices and
reinforcements used in practical composite
structures.
CO2: Analyze problems on micro and
macro mechanical behavior of lamina.
CO3: Assess the strength of laminated
COMPOSITE MATERIALS TECHNOLOGY composite and predict its failure for given
18MEMDPECM static loading conditions.
CO4: Develop understanding of different
methods of manufacturing and testing of
composites.
CO5: Make oral presentation on recent
advancements in the field of composite
materials and structures.
CO1: Appreciate multi-disciplinary nature
MECHATRONICS SYSTEM DESIGN of modern engineering systems.
18MEMDPEMD CO2: Model and analyse mechanical and
electrical systems and their connection.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO3: Be able to integrate mechanical,
electronics, control and computer
engineering in the design of mechatronics
systems.
CO4: Address issues of design,
fabrication, and packaging issues of
Microsystems.
CO1: Apply Design of Experiments (DOE)
techniques to various methods of design.
CO2: Analyse and evaluate design
parameters using different design
strategies.
ROBUST DESIGN
CO3: Illustrate through numerical
18MEMDPERD
examples improvements in design
parameters.
CO4: Perform case studies involving
identification of parameters, analysis of
experimental data in a robust design.
CO1: Construct and analyse mathematical
models of physical applications.
CO2: Find the roots of polynomials,
algebraic, transcendental or simultaneous
system of equations in science and
engineering problems.
CO3: Integrate and differentiate a function
COMPUTATIONAL METHODS IN
for given set of tabulated data with
ENGINEERING ANALYSIS
greater accuracy for engineering
18MEMDPECE
problems.
CO4: Solve system of linear algebraic
equations and compute eigen values and
eigen vectors of matrices.
CO5: Demonstrate use of computational
tools like MATLAB to obtain solution to
complex mathematical models.
CO1: Statistically model a population and
fit in a suitable distribution for the
population for further analysis.
CO2: Analyse and apply statistical concept
STATISTICAL MODELING AND in the design of experiments.
EXPERIMENTAL DESIGN CO3: Develop experimental models for 2
18MEMDPESE factors or 3 factors.
CO4: Establish a regression pattern for
given mathematical model established for
experiment and evaluate signal to noise
ratio for sensitivity.
CO1: Formulate engineering optimization
problem and solve LPP by simplex
OPTIMIZATION TECHNIQUES
method.
18MEMDPEOT
CO2: Solve single and multivariable
optimization problem by various relevant
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

method.
CO3: Develop algorithm for constrained
optimization.
CO4: Examine various optimization
techniques and demonstrate their
applicability.
CO1:Develop governing equations based
on theory, concepts and principles of
fracture mechanics
CO2:Apply principles to characterize
status of crack in a structure under
different loads and perform failure
analysis of engineering structures
FRACTURE MECHANICS CO3:Solve theoretical and practical
18MEMDPCFM problems to acquire judgment and skills
CO4:Evaluate fracture mechanics
parameters, predict crack propagation and
provide alternate solutions
CO5: Simulate and analyze behavior of
cracked structure using a commercial
analysis tool to perform fracture
mechanics analysis.
CO1: Model and analyse a free damped,
undamped and forced response of a
mechanical system.
CO2: Develop equation and analyse the
transient response of a single degree
freedom system.
CO3: Assess the response characteristics
VIBRATIONS AND ACOUSTICS
of a continuous mechanical system.
18MEMDPCVA
CO4: Analyse and discuss the behaviour of
single degree freedom system for linear
and non-linear behaviour.
CO5: Undertake literature review on
unfamiliar problems related to vibration,
comprehend it and make presentation to
the engineering community.
CO1: Comprehend basics of tribology and
related sciences, theoretical background
about processes in tribological system,
mechanisms and forms of interaction of
friction surfaces.
CO2: Analyze hydrodynamic, hydrostatic
TRIBOLOGY
bearing.
18MEMDPCTR
CO3: Select bearings based on various
tribological factors to be considered in
moving and rotating parts.
CO4: Understand the application and
limitations Magnetic and porous bearings.
CO5: Undertake literature survey on
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

unfamiliar problems related to Tribology,
comprehend it and make presentation to
the engineering community.
CO1: Analyse and determine the elastic
and elastoplastic stress- strain behaviour
of solid deformable bodies subjected to
various types of loads.
CO2: Analyse and asses the yielding
behaviour in metallic material using
THEORY OF PLASTICITY
suitable yield criteria.
18MEMDPETP
CO3: Develop plastic stress-strain relation
for large plastic deformation and apply
same along with knowledge of yield
criteria to various metal forming process.
CO4: Develop fundamental equations of
slipline field theory.
CO1: Model a rotating machine element
theoretically for rotor dynamic analysis.
CO2: Analyse Free and Forced lateral
response of simple rotor models and of
more complex systems including shafts,
ROTOR DYNAMICS
bearings, seals and stators.
18MEMDPERT
CO3: Formulate Finite element and carry
out analysis for Turborotor System
Stability.
CO4: Apply Finite element approach to
blade vibration.
CO1: Understand and develop basic
equations for thin plates.
CO2: Develop pure bending equations for
THEORY OF PLATES AND SHELLS circular and rectangular plates.
18MEMDPETS CO3: Analyze the rectangular plates using
Navier and Levy approach.
CO4: Develop equations for combined
loading on plates.
CO1: Understand functional requirements
of a generalized measurement system and
identify suitable components for an
application.
CO2: Use concepts of Data Acquisition,
Processing and apply the same for
interpretation and analysis of
EXPERIMENTAL MECHANICS
experimental data.
18MEMDPEEM
CO3: Determine stresses and strains in a
structure using different methods such as
strain gages, photo-elasticity, brittle
coating and holography.
CO4: Identify and apply suitable
experimental stress analysis to practical
problems.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO1: Understand the role of manufacture
and assembly in development of
mechanical parts and their assemblies.
CO2: Apply manufacturing considerations
DESIGN FOR MANUFACTURE
in the design and development of
18MEMDPEDF
components made of casting and
machining.
CO3: Apply geometrical dimensioning and
tolerances issues in mechanical design.
CO1: Formulate a representation for links
using Denvit-Hartenberg parameters.
CO2: Derive and analyze the velocity and
statics of a manipulator.
ROBOTICS
CO3: Plan and develop trajectory with
18MEMDPERB
different schemes.
CO4: Characterize and choose different
actuators and sensors for robotic
applications.
CO1: Develop finite element models for
static and dynamic analysis
CO2: Apply boundary conditions and
analyze the problems to evaluate primary
variables.
SIMULATION LABORATORY CO3: Solve and simulate real-time
18MEMDPCSL problems for stress and failure in different
domains like structures, thermal, fluid
flow, fatigue, etc.
CO4: Demonstrate skills in use of reputed
commercial finite element analysis
package
CO1: Design/ appraise the working of a
system/organization, component, or
process to meet desired needs within
realistic constraints such as economic,
environmental, social, political, ethical,
health and safety, manufacturability, and
sustainability.
CO2: Function in multi-disciplinary teams
INTERNSHIP / INDUSTRIAL TRAINING
CO3: Identify, formulate, and solve
18MEMDSRTS
engineering problems
CO4: Understand professional and ethical
responsibility
CO5: Gain knowledge of contemporary
issues
CO6: Use the techniques, skills, and
modern engineering tools necessary for
engineering practice
CO1: Identify and understand current
TECHNICAL SEMINAR
trends and real-world issues related to
18MEMDSRTS
topics in Machine Design.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO2: Classify appropriate content and
sources, through literature survey, that
can be summarised and integrated into
presentation
CO3: Review, analyse, and interpret data
& results using critical thinking skills
CO4: Revise and present scientific case
studies in presentation
CO5: Collaborate effectively with other
students in analysing results and
preparing oral presentations
CO6: Prepare a technical seminar report
and communicate effectively through oral
presentation using multimedia tools
CO1: Apply relevant knowledge and skills
acquired during the course in the domain
to the problem on hand
CO2: Formulate the specifications of the
project work, identify a set of feasible
solutions and prepare and execute project
plan considering professional, cultural and
societal factors
CO3: Extract information pertinent to
problem using literature survey
CO4: Analyze independently and discuss
complex issues
CO5: Use appropriate techniques and
tools to conduct experiments, analyze
data
PROJECT WORK CO6: Evaluate and critically examine the
18MEMDPCPR outcomes of one’s own work and others’
work
CO7: Draw suitable conclusions based on
the results and identify relevant
applications
CO8: Document the findings and prepare
a report in the prescribed format
CO9: Demonstrate working knowledge of
ethics and professional responsibility at
different stages such as formulation,
design, implementation, and presentation
CO10: Publish the outcomes of the project
work in a reputed journal, make effective
presentation of the work and
communicate confidently in defending the
work
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

Name of the Programme M. Tech. in Thermal Engineering
Programme Educational Objectives 4. Graduates will have knowledge in the
(PEOs) discipline of Thermal Engineering with
hands on skill in using modern
engineering tools to address real world
engineering problems and be socially
responsible.
5. Graduates shall be successful in their
career as analysts and designers of
structural components of conventional
and advanced materials, participating
in a team or individually in an industry,
research or academia.
6. Graduates shall be proficient in their
communication, presentation and will
be prepared to engage in the process
of life-long learning through
professional development and
research.
Programme Outcomes (POs) 4. An ability to independently carry out
research /investigation and
development work to solve practical
problems.
5. An ability to write and present a
substantial technical report /document
6. An ability to demonstrate mastery in
the domain of the specialization of the
program.
Course Outcomes (COs)
APPLIED MATHEMATICS 19METHPCAM CO 1: Acquire the idea of significant
figures, types of errors during numerical
computation.
CO 2: Develop the mathematical models
of thermal system using ODE’s and PDE’s.
CO 3: Learn the deterministic approach
for statistical problems by using
probability distributions.
CO 4: Demonstrate the validity of the
hypothesis for the given sampling
distribution using standard tests and
understand the randomization on design
of experiments.
CO 5: Classify and analyze mathematical
tools applied to thermal engineering study
cases.
ADVANCED FLUID MECHANICS CO1: Apply the concepts of governing
19METHPCAF equations for fluid flow problems.
CO2: Formulate and solve one
dimensional incompressible and
compressible low problems.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO3: Evaluate the properties of fluid flow
using boundary layer theory.
ADVANCED THERMODYNAMICS CO1: Apply the concepts of basic
19METHPCAT thermodynamic for analyses of thermal
energy systems.
CO2: Construct Psychrometric chart and
to develop the thermodynamic properties
of refrigerants.
CO3: Understand the concepts of
combustion phenomena and chemical
reaction in energy conversion devices.
CO4: Apply the knowledge of compressible
flow and design flow devices.
CO 5: Understand the irreversibility for
designing thermoelectric and
thermomechanical instruments.
FINITE ELEMENT METHODS FOR HEAT CO1: Introduce the various aspects of FEM
TRANSFER ANALYSIS as applied to thermal engineering
19METHPCFE problems.
CO2: Formulate one dimensional, two
dimensional, three-dimensional and
axisymmetric elements.
CO3: Apply the fundamental concepts of
mathematical methods to solve Heat
Conduction, Transient and Convective
Heat Transfer problems.
CO4: Analyse problems related to 1D,
structural problems.
CO5: Demonstrate the use of commercial
FEA packages to solve complex practical
problems.
CO1: To understand the working cycle,
Engine design and operating conditions,
combustion phenomena, Engine emission
and control.
THEORY OF IC ENGINES
CO2: Use of alternate fuels in IC engines.
19METHPEIC
CO3: Identify the various types of
emissions ,noise and their control systems
CO 4: Recommend the suitable alternative
fuel for IC Engine.
CO1: Apply the concepts of energy
equations on Non-conventional energy
technologies for their performance
NON-CONVENTIONAL ENERGY improvement.
RESOURCES CO2: Evaluate the performance of the
19METHPENC devices working on different energies.
CO3: Solve for performance
characteristics of Non-conventional energy
devices.
CRYOGENIC ENGINEERING 19METHPECG CO1: Understand the working principles
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

and applications of different types of gas
liquefaction and refrigeration systems.
CO2: Understanding the governing laws
and principles of gas separation.
CO3: Study on cryocoolers and its
applications.
CO4: Understanding the working and
applications of vacuum technology.
CO 5: Understanding the working of
Cryogenic measuring instruments.
CO 6: Understanding the importance of
cryogenics insulations and Safety in
Cryogenics.
CO1: Apply continuity, momentum and
energy equations to compressible flows.
CO2: Analyze isentropic and non-
GAS DYNAMICS
isentropic flows across normal shock
19METHPEGD
waves.
CO3: Solve compressible flow problems
involving heat transfer and friction.
CO1: Understand the working principles
and applications of different types of
refrigeration systems
CO2: Study the working of air conditioning
REFRIGERATION AND AIR systems and their applications
CONDITIONING CO3: Identify the performance parameters
19METHPERA and their relations of an air conditioning
system
CO4: Understand conventional and
alternate refrigerants and their impact on
environment.
CO1: Study the Inlet& exhaust processes
of I C Engine.
CO2: Understand the combustion
ENGINE FLOW AND COMBUSTION
phenomenon of I C Engines pollutant
19METHPECE
formation
CO3: Study the combustion models and
emission norms.
CO1: Ability to write and present a
substantial technical report/document
RESEARCH METHODOLOGY 18ALLPICRM
CO2: Able to demonstrate a degree of
mastery over the area of specialization
CO1: Evaluate the fluid flow properties
THERMAL ENGINEERING LAB experimentally.
19METHPLTE CO2: Evaluate the different performance
properties parameters of I.C. engines.
CO1: To develop the ability to use the
ADVANCED HEAT TRANSFER heat transfer concepts for various
19METHPCAH applications like finned systems,
turbulence flows, high speed flows.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO2: To analyze the thermal analysis and
sizing of heat exchangers and to learn the
heat transfer coefficient for compact heat
exchanges.
CO3: To have an understanding of the
numerical technique to handle heat
transfer problems
CO1: To understand the working principle,
operations and analysis of nozzles,
diffusers, steam and gas turbines.
CO2: Summarize the working principles of
Gas and steam turbines nozzle and
STEAM AND GAS TURBINES
diffusers.
19METHPCSG
CO3: Use the principles of
thermodynamics to determine the
performance of steam and gas turbines.
CO4: Identify the various losses
associated with the turbines.
CO1: Apply stepwise procedure to
completely solve a fluid dynamics problem
using computational methods.
CO2: Identify and implement numerical
techniques for space and time integration
COMPUTATIONAL FLUID DYNAMICS
of partial differential equations.
19METHPCCF
CO3: Computationally solve the fluid
properties for inviscid and viscous flows
CO4: Evaluate the fluid flow properties
using governing equations for different
fluid flow phenomenon
CO1: Understand the concept of boundary
layer and determine the flow parameters
in any heat transfer devices
CO2: Analyse heat dissipative cooling
equipments and heat pipes by knowing
CONVECTIVE AND RADIATIVE HEAT
the concept of natural and forced
TRANSFER
convection
19METHPECR
CO3: Evaluate a radiation shape factor for
radiative heat transfer between different
surfaces
CO4: Model the fundamentals of radiation
in gaseous media.
CO1: Understand the
basic physics of nuclear reactions
CO2: Basic concepts of nuclear fuel
manufacturing and spent fuel handling
NUCLEAR ENGINEERING 19METHPCNE CO3: Classification of nuclear reactors
CO4: Understand working principle of
thermal reactor
CO5: Understand working principle of fast
reactor
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

CO6: Analyse the thermal hydraulics of
nuclear reactors
CO1: Understand the physics and the
mathematical treatment of typical heat
exchangers.
CO2: Employ LMTD and Effectiveness
methods in the design of heat exchangers
and analyze the importance of LMTD
approach over AMTD approach.
DESIGN OF HEAT TRANSFER CO3: Examine the performance of
EQUIPMENTS double-pipe counter flow (hair-
19METHPEDH pin) heat exchangers.
CO4: Design and analyze the shell and
tube heat exchanger.
CO5: Understand the fundamental,
physical and mathematical aspects of
boiling and condensation.
CO6: Classify cooling towers and explain
their technical features.
CO1: To provide a knowledge about the
analysis of various cycles used for power
generation, Combustion, kinetics involved
in combustion.
ADVANCED POWER PLANT CYCLES CO2: To impart knowledge about feed
19METHPEAP water circulation, working of FWH.
CO3: Differentiate axial flow and radial
flow gas turbines for their analysis.
CO4: Identify the design parameters and
economics of power plant.
CO1: Analyse the energy concepts on
solar devices for various thermal
SOLAR THERMAL TECHNOLOGIES AND properties.
ITS APPLICATIONS CO2: Analyse the solar thermal devices for
19METHPESA various tracking modes.
CO3: Evaluate the performance of various
solar thermal technologies.
CO1: Solve for temperature, pressure and
enthalpy of Binary mixtures
CO2: Solve the basic equations to
determine velocity, pressure and
temperature of multiphase flow
CO3: Analyze pool and flow boiling
PHASE CHANGE PHENOMENAN IN FLUIDS
phenomena to design the heat dissipative
19METHPEPC
cooling equipment’s
CO4: Understand different flow pattern
and its instability with bubble behavior
CO5: Analyze condensation phenomena in
the industrial and commercial
equipment’s.
MICRO FLUIDICS CO1: Differentiate between traditional flow
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

19METHPEMF and microfluidics.
CO2: Derive expressions for microfluidic
parameters
CO3: Apply the principles of micro fluidics
for coupling biology and fluid physics at
microconfinement scale.
CO4: Identify problems in micro
manufacturing.
CO5: Understand molecular simulation
and Nano-fluidics ( Theoretical Treatise)
CO1: Design/ appraise the working of a
system/organization, component, or
process to meet desired needs within
realistic constraints such as economic,
environmental, social, political, ethical,
health and safety, manufacturability, and
sustainability.
CO2: Function in multi-disciplinary teams
INTERNSHIP / INDUSTRIAL TRAINING
CO3: Identify, formulate, and solve
19METHPCIN
engineering problems
CO4: Understand professional and ethical
responsibility
CO5: Gain knowledge of contemporary
issues
CO6: Use the techniques, skills, and
modern engineering tools necessary for
engineering practice
CO1: Apply the concepts of measurement
on mechanical systems
EXPERIMENTAL METHODS IN THERMAL CO2: Carry out error and uncertainty
ENGINEERING analysis of thermal systems
19METHPCEM CO3: Analyse different measurement
techniques for measurements of pressure
and fluid flow
CO1: Identify and understand current
trends and real-world issues related to
topics in Thermal Engineering.
CO2: Classify appropriate content and
sources, through literature survey, that
can be summarised and integrated into
presentation
TECHNICAL SEMINAR CO3: Review, analyse, and interpret data
19METHPCTS & results using critical thinking skills
CO4: Revise and present scientific case
studies in presentation
CO5: Collaborate effectively with other
students in analysing results and
preparing oral presentations
CO6: Prepare a technical seminar report
and communicate effectively through oral
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MECHANICAL ENGINEERING

presentation using multimedia tools
CO1: Forecast the short term load for
decentralised load management
CO2: Predict energy potential locally and
globally
ENERGY AUDITING
CO3: Estimate electricity Tariff
19METHPCEA
CO4: Optimise energy audit system
CO5: Determine energy consumed by
various thermal machines
CO6: Plan demand side load management
CO1: Apply relevant knowledge and skills
acquired during the course in the domain
to the problem on hand
CO2: Formulate the specifications of the
project work, identify a set of feasible
solutions and prepare and execute project
plan considering professional, cultural and
societal factors
CO3: Extract information pertinent to
problem using literature survey
CO4: Analyze independently and discuss
complex issues
CO5: Use appropriate techniques and
tools to conduct experiments, analyze
data
PROJECT WORK CO6: Evaluate and critically examine the
19METHPRP outcomes of one’s own work and others’
work
CO7: Draw suitable conclusions based on
the results and identify relevant
applications
CO8: Document the findings and prepare
a report in the prescribed format
CO9: Demonstrate working knowledge of
ethics and professional responsibility at
different stages such as formulation,
design, implementation, and presentation
CO10: Publish the outcomes of the project
work in a reputed journal, make effective
presentation of the work and
communicate confidently in defending the
work
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

Name of the Programme B.E. in Electrical Engineering

Programme Specific 1. Develop models, analyze and assess the performance of different
Outcomes (PSOs) types of generation, transmission, distribution and protection
mechanisms in power systems.
2. Design, develop, analyze and test electrical and electronics systems;
deploy control strategies for power electronics related and other
applications.
3. Measure, analyze, model and control the behavior of electrical
quantities associated with constituents of energy or allied systems.
Programme Outcomes PO1 to PO12
(POs)
PO1 Engineering Knowledge: Apply the knowledge of mathematics and
science engineering fundamentals and an engineering specialization to
the solution of complex engineering problems.
PO2 Problem Analysis: identify, formulate, review research literature, and
analyze complex engineering problems reaching substantiate
conclusions using first principles of mathematics, natural sciences and
engineering sciences.
PO3 Design/development of solutions: Design solutions for complex
engineering problems and design system components or processes that
meet the specified needs with appropriate consideration for the public
health and safety and the cultural, societal and environmental
considerations.
PO4 Conduct investigations of complex problems: use research based
knowledge and research methods including design of experiments,
analysis and interpretation of data, and synthesis of the information to
provide valid solutions.
PO5 Modern tool usage: create, select, and apply appropriate techniques,
resources, and modern engineering and IT tools including prediction and
modeling to complex engineering activities with an understanding of the
limitations.
PO6 The engineer and society: apply reasoning informed by the contextual
knowledge to access societal, health, safety, legal and cultural issues
and the consequent responsibilities relevant to the professional
engineering practice.
PO7 Environment and sustainability: understand the impact of the
professional engineering solutions in societal and environmental
contexts and demonstrate the knowledge of and need for sustainable
development.
PO8 Ethics: apply ethical principles and commit to professional ethics and
responsibilities and norms of the engineering practice.
PO9 Individual and team work: function effectively as an individual, and as a
member or leader in diverse teams and in multi-disciplinary settings.
PO10 Communication: communicate effectively on complex engineering
activities with the engineering community and with society at large such
as, being able to comprehend and write effective reports and design
documentation, make effective presentations, and give and receive clear
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

instructions.
PO11 Project management and finance: demonstrate knowledge and
understanding of the engineering and management principles and apply
these to one’s own work, as a member and a leader in a team, to
manage projects and in multi-disciplinary environments.
PO12 Lifelong learning: recognize the need for, and have the preparation and
ability to engage in independent and lifelong learning in the broadest
context of technological change.
Course Outcomes (COs) The COs for all the courses offered - Core and electives
Course Name Course Outcomes
I & II Sem
Elements of Electrical CO1: Understand the basic concepts of DC, AC circuits and Electrical
Engineering Machines.
CO2: Apply the basic knowledge of mathematics, science and electrical
engineering to obtain the desired parameters/performance
characteristics of Electric circuits and Machines.
CO3: Analyse the behavior of Electric circuits, transformers and
Electrical machines.
CO4: Conduct a study on safety aspects, wiring and consumption of
electrical power in domestic installations.
CO5: Conduct experiments and study the performance of electrical
machines, AC and DC circuits.
CO6: Norms of engineering practice for domestic earthing.
III Sem
ADVANCED ENGINEERING CO-1:Obtain numerical solution a system of algebraic equations,
MATHEMATICS algebraic and transcendental equations and ordinary differential
equations.
CO-2:Formulate boundary value problems involving one dimensional
heat and wave equation.
CO-3:Solve partial differential equations with appropriate boundary
conditions using the method of separation of variables.
CO-4:Construct analytic functions and simple conformal mappings.
CO-5:Evaluate real and complex integrals using the calculus of residues.
LINEAR CIRCUITANALYSIS CO-1: Formulate equations based on physical laws and analyze the
steady state behavior of complex electric networks.
CO-2: Apply the knowledge of mathematics and graph theory to the
solution of complex electrical networks.
CO-3: Apply mathematical and analytical techniques to analyze
transient behavior of networks.
CO-4: Analyze networks based on two port networks and state
variables.
ANALOG CO-1: Define, understand and explain the structure, V-I characteristics,
MICROELECTRONICS working and applications of analog electronic devices like diodes, Bipolar
Junction Transistors(BJTs) and MOSFETs.
CO-2: Apply the knowledge of KVL and KCL to obtain voltage
/current/waveform at different points in analog electronic circuits such
as diode clippers, clampers, amplifiers using BJTs and MOSFETs, current
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

sources, current mirrors, power amplifiers, feedback amplifiers.

CO-3: Analyze analog electronic circuits such as diode clippers,
clampers, amplifiers using BJTs and MOSFETs, current sources, current
mirrors, power amplifiers, feedback
amplifiers etc. to obtain voltage /current/waveform at different points
for given specifications.
CO-4: Design analog electronic circuits such as diode clippers, clampers,
amplifiers using BJTs and MOSFETs, current sources, current mirrors,
power amplifiers, feedback amplifiers for given specifications.
CO-5: Conduct experiments using analog electronic components and
electronic instruments to function as switch, regulator, clippers,
clampers, small signal amplifiers, oscillators, power amplifiers
CO-6: Engage in self-study/independent study to formulate, design,
implement, analyze and demonstrate an application using analog
electronic components through an open ended experiment.
CO-7: Engage in self-study/independent study to submit a seminar
report and make an effective presentation on topics related to the
course (e-waste management, www.deity.gov.in, Comparative study of
components, preparing the specifications
of components, verifying the data sheets, applications of analog
electronics).
DIGITAL ELECTRONICS CO-1: Understand, define and explain the fundamental concepts of
Digital circuits.
CO-2: Applythe knowledge of digital circuit concepts (Boolean Algebra,
K-Maps and Quine-McClusky method) to optimize a digital circuit for the
given parameter (number of gates, time delay, power consumption,
cost).
CO-3: Analyze digital circuits and arrive at suitable conclusions.
CO-4: Design a digital circuit for given specifications.
CO-5: Conduct experiments using digital ICs for a given
application/problem statement.
CO-6: Engage in self-study to formulate, design, implement, analyze
and demonstrate an application of digital electronic circuits through an
open ended experiment.
CO-7: Engage in self-study to deliver a seminar on topics related to the
course accompanied by a seminar report (www.deity.gov.in,
Comparative study of components, preparing the specifications of
components, verifying the data
sheets, applications of digital ICs, the characteristics/specifications of
different digital ICs, etc.).
FIELD THEORY CO-1: Apply the fundamental Knowledge of electrostatics.
CO-2: Apply the fundamental Knowledge of magneto-statics.
CO-3: Formulate and analyze problems involving different media with
boundaries using uniform plane wave.
Simulation Lab -I CO-1: Navigate the MATLAB user interface, enter commands, Create
access, modify, perform calculations, and visualize matrix data and
customize plots.
CO-2: Import data from files, write and debug scripts and create
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

functions.
CO-3: Visualize and interpret three dimensional plots of functions and
responses of electrical systems.
CO-4: Create and simulate a model of a physical system.
CO-5: Create mathematical models of systems such as controlled and
uncontrolled rectifiers and determine the parameters associated with
the output signal.
CO-6: Interact with MATLAB workspace.
IV Sem
Discrete Mathematics and CO-1: Understand the notation of set theory, relations and
Probability functions.
CO-2: Construct a Hasse diagram for partial orderings, Use many
terms associated with graphs and prove whether two graphs are
isomorphic.
CO-3: Obtain the probability of an event using discrete and
continuous distributions, including the n-step transition probability.
CO-4: Analyse and classify simple states (recurrent/transient).
CO-5: Understand, derive and apply the properties of the M/M/m
queuing model (properties like stationary probability, average
waiting and system time, expected number of customers in the
queue).

Analog Integrated Circuits CO-1: Define, understand and explain the DC and AC performance
characteristics of Opamp, applications of Opamp, working of 555 timer
and voltage regulators.
CO-2: Apply the knowledge of KVL and KCL to obtain voltage
/current/waveform at different points in analog electronic circuits such
as Opampamplifiers, rectifiers, filters, waveform generators, PLL, data
converters, regulators, comparators ,555 timers.
CO-3: Analyze analog electronic circuits such as Opamp amplifiers,
rectifiers, filters, waveform generators, PLL, data converters, regulators,
comparators, and 555 timers etc to obtain voltage/current/waveform at
different points that meet desired specifications.
CO-4: Design analog electronic circuits such as Opamp amplifiers,
rectifiers, filters, waveform generators, PLL, data converters, regulators,
comparators ,555 timers etc. that meet desired specifications.
CO-5: Conduct experiments using analog electronic components,
electronic instruments to function as amplifiers, comparators, rectifiers,
filters, astable and monostable circuits using 555, data converters.
CO-6: Engage in self-study/independent study to formulate, design,
implement, analyze an d d em on s t ra t e an a p p l i c a ti on u s i n g
an a l og e l e c t r on i c components/ASLK/Multisim through a mini-
project and submit the mini-project and make an oral presentation of
the work.
MICROCONTROLLERS CO-1: Understand and explain computer based and memory based
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

architecture, microcontroller, pipelining, addressing modes, data types

in Embedded C, basics of serial communication, timer configuration and
interrupt handling.
CO-2: Calculate instruction execution time, delay, baud rate, and write
assembly and C Code, identify the timer mode, serial communication
mode and interrupt priorities.
CO-3: Debug/ analyze the code in assembly as well as Embedded C.
CO-4: Identify the IDE to conduct experiments by simulating, debugging
and executing the assembly and Embedded C code
CO-5: Engage in independent study/ self-study by preparing a 5 min
video on 'Applications of Microcontrollers for health, safety, environment
and society’.
CO-6: Work as an individual and as a team-member to design,
formulate and implement experiments using microcontroller through
conduction of an Open-Ended experiments.
CONTROLSYSTEMS CO-1: Obtain mathematical models of open loop and closed loop
physical systems.
CO-2: Apply mathematical techniques to perform time response analysis
of a control system.
CO-3: Carry out stability analysis using different mathematical
techniques.
SIGNALS AND SYSTEMS CO-1: Apply the knowledge of mathematics and engineering to analyze
and obtain the response of continuous and discrete time systems.
CO-2: Analyze Continuous Time and Discrete Time signals and systems
in Frequency domain using Fourier analysis tools like CTFS, CTFT, DTFS
and DTFT.
CO-3: Analyze Discrete Time systems using Z-transforms.
Simulation Lab -II CO-1: Develop simulation circuit for a given electric network and verify
KVL and KCL.
CO-2: Design and analysis of power amplifier, Inverting and Non
inverting amplifiers and oscillator circuit through simulation.
CO-3: Develop circuit model to analyze a second order system and
perform stability studies.
CO-4: Develop circuit model and apply circuit theorems.
Mathematics-I CO-1: Understand the basic concepts of differentiation and integration.
CO-2: Apply the concepts of polar curves and multivariate calculus.
CO-3: Apply analytical techniques to compute solutions of first and
higher order ordinary differential equations.
CO-4: Apply techniques of vector calculus to engineering problems.
CO-5: Comprehend the generalization of vector calculus in curvilinear
coordinate system
MATHEMATICS-II CO-1:Use Laplace transforms to solve differential equations.
CO-2:Apply double integrals to compute areas.
CO-3:Learn to use triple integrals in computing volumes.
CO-4: Use Gamma and Beta functions to evaluate integrals.
CO-5: Understand the use of integral calculus in scalar and vector fields.
V Sem
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

TRANSMISSION AND CO1:Select a suitable insulator & design the transmission line for the
DISTRIBUTION required sag.
CO2:Develop mathematical models of the transmission line with
different configurations and determine the parameters.
CO3:Develop network models of different types of transmission lines
and assess their performance.
CO4:Analyze and distinguish different distribution system topologies,
underground cable grading and earthing types and their basis for
selection.
ELECTRICAL MACHINES I CO1: Sketch and describe the constructional details and operating
principles of Transformers and Induction Motors.
CO2: Analyze the performance of Transformers and Induction Motors
usingphasor diagrams and circuit model of machines.
CO3: Select appropriate AC machine for aspecified application and
justify the selection.
ELECTRICAL ENERGY CO1:Interpret the data available on the nation’s energy scenario,
SYSTEMS distinguish the contributions of conventional and non-conventional
sources and co-generation units in power plants.
CO2:Describe the operation of different kinds of conventional and non-
conventional energy resources and assess their environmental impact
and viability in different social situations.
CO3:Evaluate various factors that contribute to the economic operation
and efficient management of Energy systems.
CO4:Compare, choose amongst the various types of substations for a
specified location and justify.
DIGITAL SIGNAL CO1: Apply Discrete Fourier transforms for different types of signals,
PROCESSING interpret the information obtained and reconstruct.
CO2: Analyze discrete parameter signals and their transforms for their
behaviour.
CO3: Design and demonstrate application of linear system analysis to
engineering problems.
MEASUREMENTS AND CO1: Identify& select suitable bridges for the measurement of electrical
INSTRUMENTATION circuit parameters.
CO2: Distinguish the concept behind the operation of analog & digital
instruments for the measurement of electrical circuit parameters.
CO3: Select and justify the choice of a suitable transducer for an
application.
EMBEDDED SYSTEM CO1: Design an embedded system as solution to real time problems
DESIGN (Department applying the knowledge of processor, memory and peripheral interfacing
Elective I) techniques.
CO2: Analyze schedulers, scheduling algorithms, latencies, task, and
synchronization of tasks for real time embedded systems.
CO3: Realize a RISC Microcontroller and apply the knowledge of
programming to develop small scale embedded applications.
Design and CO1: Apply digital electronics engineering fundamentals to identify,
Implementation of Digital formulate and analyse various digital systems.
Systems using HDL CO2:Design hardware/software systems using appropriate modelling
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

(Department Elective I) techniques within certain constraints.

CO3:Test and interpret the data through experiments using modern IT
tools.
C++ for Engineering CO1: Apply the basic concepts ofC++ programming in developing the
Applications (Department code for various operations
elective I) CO2:Write C++ programs using salient features of OOPssuch as
Classes, Objects, Data Abstraction, Data encapsulation, Overloading,
Inheritance,Polymorphism and file handling concepts for various
applications.
CO3:Develop C++ programs for Electrical and Electronics Engineering
applications.
ELECTRICAL CO1:Apply Indian Electricity Rules and Regulations for design of
INSTALLATION, TESTING, electrical systems.
COMMISSIONING AND CO2:Design electrical systems as per the requirements for residential
MAINTENANCE and commercial purposes.
(Department Elective I) CO3:Test and install electrical apparatus and HVAC systems for
commercial and industrial applications.
CO4: List the conditions for Install of electrical equipment.
VI Sem
POWER SYSTEMS I CO1 : Model and analyze power systems using complex mathematical
transformations under short circuit and unbalanced conditions.
CO2:Analyze different unsymmetrical faults on unloaded alternator and
on complex power systems using symmetrical component
transformations.
CO3: Apply mathematical techniques to evaluate system stability.
ELECTRICAL MACHINES II CO1: Describe the constructional details, principle of operation,
characteristics and speed control of DC machines and select DC motors
for specific application.
CO2: Evaluate the performance of DC machine by testing them in both
generating and motoring modes.
CO3: Describe the constructional details, principle of operation of
synchronous machine in
generating and motoring modes and their selection for specific
application
CO4: Develop synchronous machine model and evaluate the
performance of synchronous
machine during parallel operation
Power Electronics – I CO1: Explain the working , sketch the steady state and dynamic
characteristics of power semiconductor devices, types of power
converters and their applications, Peripheral effects, and derive relevant
expressions for their performance parameters etc.
CO2: Formulate equations and estimate circuit components, power loss
for given specifications of operation of power devices under steady state
and dynamic conditions.
CO3: Apply relevant expressions to analyze the performance of power
converters.
CO4: Independently, and in a group study, collate information/data,
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

comprehend a topic related to specific applications of Power Electronics.

CO5: Design, simulate and build efficient power conversion
systems/subsystems for given specifications for various applications and
effectively interpret the results obtained.
CO6: Make effective technical presentations on the work carried out and
communicate effectively to an audience.
Modern Control Theory CO1: Create state models using physical variables, mathematical
variables and to solve the state equation.
CO2: Apply appropriate techniques to analyze the system for its
controllability and observability.
CO3: Apply relevant concepts to design systems with state feedback to
meet the specifications; mathematically represent nonlinear systems
and analyze a few simple models.
UTILIZATION OF ELECTRIC CO1: Apply the knowledge of mathematics, science and electrical
POWER (Department engineering principles to analyze operation different types of electrical
elective II) heating gadgets such as ovens and welding equipment.
CO2: Apply the knowledge of mathematics and electrical engineering
principles to design lighting systems for different applications.
CO3: Apply the basic knowledge of engineering to analyze the behavior
of electrical traction systems under various conditions of operation.
Circuit Design using VLSI CO1: Able to describe and compare various types of VLSI technology.
(Department Elective II) Also understand the methodology of fabrication process.
CO2: Apply the knowledge of MOS technology for simple analog/digital
circuits.
CO3: Use of scaling methods based on various circuit parameters and
apply scaling.
CO4: To identify the various NMOS and CMOS technology to be used
based on their applications and demonstrates the working of a few VLSI
circuits
COMMUNICATION CO1: Acquire basic knowledge of communication systems.
SYSTEMS (Department CO2 : Characterize and analyze different modulation techniques for
Elective II) analog & digital communication.
CO3:Analyze the effect of noise on analog signals.
ELECTRICAL MACHINE CO1: Apply the knowledge of fundamental principles, factors electrical
DESIGN ( Department engineering materials and use of modern tools for the design of
Elective II) electrical machines.
CO2: Apply the general concepts and constraints in design of rotating
electrical machines in design of electrical machines.
CO3: Design the dimensions of different parts and details of windings of
rotating electrical machines
CO4: Analyse the effect of dimensions of the different parts of various
electrical machines on the output and losses.
DISPLAYS FOR EMBEDDED CO1: Understand the working principle behind various display devices
SYSTEM (Cluster Elective for embedded systems.
I) CO2: Apply C programming concepts to program LED and LCDs for
embedded displays.
CO3: Analyse and investigate working of GLCDs for both graphic
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

displays and Touch interfaces.

CO4: Work as an individual and thereby conduct experiments using
UTLP for a given application/problem statement.
CO5: Develop, test, analyze and demonstrate applications of
telecommunication using UTLP.
CRYPTOGRAPHY AND CO1: Define, understand and explain concepts related to network
NETWORK SECURITY security.
(Cluster Elective I) CO2: Apply the knowledge of communication and coding to
telecommunication networks.
CO3: Design, implement and analyze algorithms for secure
transmission.
BIO-MEMS (Cluster CO1: Apply knowledge of mathematics, science and engineering to
Elective I) understand the working principle of MEMS and sensors, Microfluidic
Systems, Bio-Mems.
CO2:Identify, analyse and formulate the computing requirement using
MOEMS technology, Micro-fabrication techniques.
CO3: Understand the environmental impact & safety issues of biomems
with reference to medical standards and ethics.
CO4: Ability to function, engage in implementing, communicating the
concepts and principles learnt in course using soft tool.
Advanced Medical Image CO1: Apply knowledge of Mathematics and Engineering to use
Processing (Cluster Morphological operations in image Processing.
Elective I) CO2: Identify and analyze a problem and formulate the computing
requirements for segmentation of images.
CO3: Implement the processes to detect and recognize an object in the
images.
CO4: Apply wavelet transform to compress and enhance the quality of
images.
CO5: Use current techniques and modern tools to improve the image
analysis
DATA STRUCTURES AND CO1: Identify, describe, differentiate and develop the different types of
ALGORITHMS (Cluster data structures.
Elective I) CO2: Interpret data as arrays and matrices. Develop and Differentiate
special matrices.
CO3: Understand, develop and create applications using stack and
queue structures.
CO4: Identify, demonstrate and construct file structures Outline,
identify, model and analyze.
PHYSICAL DESIGN (Cluster CO1: Learn the advanced concepts of modern VLSI system design
Elective I) including standard cells, cell libraries, IPs etc.
CO2: Partition the system into sub blocks and do floor planning.
CO3: Do global placement and detail placement and clock tree
synthesis.
CO4: Route signals and do physical verification.
PROBABILITY AND CO1: Understand and analyze the concepts of Probability theory.
RANDOM PROCESS CO2: Understand and analyze the concepts of Random Variables.
(Cluster Elective I) CO3: Understand and analyze operation on a single random variable.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

CO4: Understand and analyze the conceptsof Random process.

CO5: Understand and analyze the Spectral properties of Random
process
ADVANCED CO1: Acquire the knowledge on ARM organization and the feature rich
MICROCONTROLLERS & ARM Cortex architecture.
APPLICATIONS (Cluster CO2: Analyze and apply the instruction set of ARM Cortex processor in
Elective I) developing embedded applications using C & CMSIS.
CO3: Recognize the need of firmware, boot- loader, real time operating
systems and various communication protocols.
CO4: Demonstrate the development of embedded applications using
ARM Cortex platforms.
Electrical & Electronics CO1: Understand the physics of equilibrium and kinetics and crystal
Engineering Materials geometry of engineering materials.
(Cluster Elective I) CO2: Understand the concept of atomic structure, chemical bonding,
and structure of solid.
CO3: Apply the principle of physics and mathematics to understand
about the properties of conductors, semiconductors, dielectric and
magnetic materials.
CO4: Apply the concept of conductor, semiconductor, dielectric and
magnetic materials to measure properties of these materials.
ELECTROMAGNETIC CO1: Analyze the fundamentals and reason for noise in Analog
COMPATIBILITY (Cluster electronics, Power Electronicsand Digital electronics circuit.
Elective I – Except EC & IT CO2 : Design and development of filters for Analog electronics, Power
) electronics and Digital circuits for reduction of noise.
CO3 : Design the various types of grounding systems and get
familiarized with handling electro static discharge systems
CO4 : Acquire knowledge about testing standards and regulations.
Modern Control Theory CO1: Create state models using physical variables ,mathematical
(Cluster Elective I –Except variables and to solve the state equation.
EE ) CO2: Identify appropriate techniques to analyze the system for its
controllability and observability.
CO3: Apply relevant concepts to design systems with state feedback to
meet the specifications, Comprehend mathematical representation of
nonlinear systems and analysis of a few simple models.
ROBOTICS (Cluster CO1: Deduce kinematic equations for a given robot configuration.
Elective I) CO2: Select actuators and sensors for specified tasks.
CO3: Design and develop manipulators for simple tasks.
INDUSTRIAL INTERNET OF CO1:Understand the building blocks of an IIOT based solution and try
THINGS (Cluster Elective applying it to few common problems.
I) CO2: Use one of the ideas of IIOT and propose a solution architecture
for the idea in addition to one reference of IIOT in process Automation.
CO3: Understand the challenges of IIOT as a technology, understand its
strength, limitations. Solve constraints through alternatives to refine the
group proposal of process Automation.
CO4: Understand concepts of IIOT and apply them in the context of
plant operations. Also gain an understanding of the operations of a
process plant and identify potential applications.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

VII Sem
POWER SYSTEMS II CO1: Apply knowledge of Advanced Mathematics and Electrical
Engineering concepts to formulate and solve complex power system
problems such as load flow, economic dispatch and load frequency
control.
CO2: Analyse steady state power system performance based on the
load flow model; from the dynamic model of speed governor-turbine
system, assess the static performance of the closed loop system.
CO3: Investigate the effect of variation of control parameters such as
transformer taps, reactive power etc., on the overall power system
behavior.
CO4: Using optimization techniques, economically schedule the load
among all the generators in a power system so that the fuel costs are
minimized; as load varies throughout the day, determine the savings in
cost.
CO5: Write computer programs and/or use standard application
software to simulate the power system. Using these modern tools,
conduct power flow studies and perform economic dispatch on complex
power systems.
SWITCHGEAR AND CO1: Apply the knowledge to comprehend the need for protective
PROTECTION equipment such as fuse and switches.
CO2: Identify the components of the relay and circuit breakers to
distinguish the parameters affecting their operation.
CO3: Comprehend the working of static relays and comparators.
CO4: Conduct relevant experiments to investigate the performance of
switch gear under different situations.
POWER ELECTRONICS -II CO1: Analyse the performance of basic DC – DC, derived and resonant
converters.
CO2: Carry out simulations of basic DC – DC converters in CCM/DCM
mode and derived converters.
CO3: Conduct experiments to validate the performance of basic DC –
DC converters in CCM/DCM mode and derived converters.
CO4: Design magnetic components of a circuit using basic concepts of
magnetic circuits.
CO5: Apply the concepts of microcomputer control for power electronic
system.
HIGH VOLTAGE CO1: Apply the knowledge to comprehend Generation of High Voltage
ENGINEERING ( CO2: Apply the knowledge to identify suitable dielectrics in various HV
Department Elective - III) applications.
CO3: Analyse the Breakdown Phenomenon in Insulators
CO4: Analyse the factors affecting HVAC & HVDC measurements
CO5: Conduct experiments on Solids, Liquids ( conventional & bio-
friendly) to assess the dielectric behavior under power frequency and
high frequencies
ELECTRICAL POWER CO1: Explain the issues and concerns of power quality, classify ,sketch
QUALITY ( Department and identify various power quality phenomena normal as well as
Elective - III) abnormal, define several standards related to power quality, the effect
of distributed generation ,origin of power quality variations,
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

consequences and effect of frequency variations, effects of harmonic

distortions, explain the working of instruments and mitigation methods
used for PQ problems.
CO2: Apply the concepts to evaluate power system quantities for
systems under specified sinusoidal and non sinusoidal conditions of
operation.
CO3: Analyze behaviour of systems and interpret data presented
through case studies for power quality issues and suggest suitable
remedial measures.
CO4: Independently and/or in a group design experiments, model,
simulate, measure using specialized equipment, study, collate
information/data ,on loads that cause power quality problems in
different field set-ups such as domestic /bulk consumers of electricity.
CO5: Make effective technical presentations and reports on the work
carried out and communicate effectively to an audience.
CONTROL OF ELECTRICAL CO1: Apply the fundamental concept to comprehend the working of
DRIVES (Department industrial Drives and dynamics.
Elective III) CO2: Apply the knowledge to select appropriate motor for the specified
application to meet customer requirements.
CO3 : Analyse the performance of dc motor drives for various operating
condition.
CO4: Analyse the performance of induction motor during unbalanced
condition, control of induction motors with the help of power electronic
circuits.
COMPUTER CO1. Acquire knowledge about network models, devices ,principles of
COMMUNICATION AND communication, current technology and associated IEEE communication
NETWORKING FOR standards for wired and wireless communication.
ELECTRICAL CO2. Analyse the services provided by various layers of network
ENGINEERING models, protocols of Data Link Layer, Transport layer.
APPLICATIONS Co3. Implement network protocols for a given network topology using
(Department Elective – III) modern tools.
CO4. Apply communication and networking concepts for electrical
engineering.
SOLAR AND WIND ENERGY CO1: Understand current strategies, plan and policies of GOI in
CONVERSION SYSTEMS Renewable energy usage and awareness about sustainable
(Cluster Elective II) development.
CO2: Understand the methods and opportunities for energy
conservation in Industrial and Domestic sectors and its impact on the
environment.
CO3: Apply the knowledge of mathematics and physics to analyse the
solar radiation, its measurement also to estimate wind power.
CO4: Explain the Energy Conversion with respect to Solar- Thermal, PV
and Wind applications.
PLC AND SCADA (Cluster CO1: Memories the basic concepts of use of computers in process
Elective II) control through data loggers, DAS, SCADA, DDC and DCS.
CO2: Understanding and implementation of ladder programming for
various applications using PLCs.
CO3: Illustrate the various parts of distributed control systems and its
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

application in industry.
CO4: Classify various industrial communication protocols used in PLC's
and DCS network.
Electrical Power and CO1: Apply the knowledge and try to solve the problems of power crisis
Energy Management in India by analyzing different load availability with respect to
Systems (Institutional requirements and demands.
Elective- I ) CO2: Select and apply different methods of tariffs used in practice and
to motivate and apply the energy conservation methods in various
sectors of energy use.
CO3: Analyze various energy auditing methods to conserve energy in
various sectors.
Co4: Analyze different load curves of various energy sectors and apply
load control methods for optimal use of electricity.
MICRO & SMART SYSTEM CO1: Develop and understand the concept about micro systems, their
(Institutional elective –I) working and applications as sensors and actuators.
CO2: Analyze the complexity of fabrication process and micro machining
technologies.
CO3: Understand the design of different electronic circuits and
components used in micro sensors & actuators.
CO4: Develop knowledge about integration, interconnection & packaging
of microsystems leading to a suitable societal engineering solution.
PROJECT FOR COMMUNITY CO1: Do a survey and formulate a problem identified.
SERVICE CO2: Apply a suitable engineering/IT tool for modeling/data
interpretation/analysis, conduct experiments leading to a logical solution
of the proposed problem.
CO3: Compare the proposed solution with other available alternatives.
CO4: Communicate effectively to diverse audience trough presentations
and develop technical reports and publications.
VIII Sem
SUSTAINABLE PRACTICES CO1: Comprehend the design and challenges in LV distribution systems,
IN ELECTRICAL selection of various switch gears for LV distribution, Robust design
ENGINEERING Issues in Switch Gears & Protection of LV distribution, Various Quality
control methodsfor robust products.
CO2: Analyzethe performance of electrical systems that exist for
societal use for safety, sustainability, energy efficiency, quality,
economics and reliability.
CO3: Apply ethical knowledge /standard practices to assess the extent
of adherence to regulations in electrical products.
CO4: Make effective reports/presentations on various aspects of the
studies carried out.
PROJECT MANAGEMENT CO1: Apply the Knowledge of project management principles and to
AND FINANCE implement project management methodologies required for successful
project completion.
CO2: Develop Ethical principles in project planning and execution as a
team and documentation in project implementation.
CO3: Identify and Apply finance aspects for project implantation in time.
CO4: Use modern tools to simulate their respective projects and case
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

studies and investigate the behaviour under various operating

conditions.
INTELLECTUAL CO1: Ability to understand and commit to professional ethics and
PROPERTYRIGHTS AND responsibilities to obtain Intellectual property Rights like Patents,
CYBER LAW Copyright & Trademarks
CO2: Understand the impact of Patents, Copyright & Trademarks and
demonstrate the knowledge of Cyber Law for the societal and
environmental context
CO3: Ability to use IPRs and Cyber Law to access societal, health, safety
& Cultural issues
CO4: Ability to work in multiple teams to effectively communicate IP &
Cyber Law.
OPERATIONS RESEARCH CO1: Formulate a real-world problem as a mathematical programming
(Institutional Elective- II ) model.
CO2: Formulate and solve transportation models by applying cost
cutting strategies.
CO3: Formulate and solve assignment models and travelling salesmen
problems.
CO4: Construct a project network and apply program evaluation review
technique and critical path management.
CO5: Employ Game theory for strategic decision making
MAJOR PROJECT CO1: Ability to research literature, and formulate a complex engineering
problem.
CO2: Apply the fundamental knowledge of mathematics, science and
engineering principles in design of solutions of system components.
CO3: Identify, Select, and Apply a suitable engineering/IT tool in
modeling/data interpretation /analytical studies, conduct experiments
leading to a logical solution.
CO4: Design a system/ system component/process, build it and test its
functioning as a solution to a complex engineering problem.
CO5: Communicate effectively to a diverse audience and develop
technical reports and publications.
SEMINAR CO1: Analyze and interpret data for complex systems.
CO2: Select and apply modern engineering tools
CO3: Communicate Effectively to an Audience, and design
documentation (written graphical and visual forms)
CO4: Engage in independent learning

Name of the Programme M.Tech in Power Electronics

Programme Educational 1. Excel professionally in Power Electronics and allied domains.
Objectives (PEOs) 2. Undertake research and development that addresses technological
requirements of Industry and Institutes of higher learning
3. Adapt to the changing needs of Industry/Society through lifelong
learning.
Programme Outcomes 1. An ability to independently carry out research /investigation and
(POs) development work to solve practical problems.
2. Ability to write and present a substantial technical report/document.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

3. Students should be able to demonstrate a degree of mastery over the

areas per the specialization of the program. The mastery should be at a
level higher than the requirements in the appropriate bachelor program.
Course Outcomes (COs) The COs for all the courses offered - Core and electives
Course Name Course Outcomes
I Sem
APPLIED MATHEMATICS CO1: Apply the concepts of solving polynomial equations,
transcendental equations, ordinary differential equations, partial
differential equations, system of algebraic equations, non-linear
equations, and ordinary differential equations for Engineering problems.
CO2: Apply the concepts of graph theory, eigen value problems,
interpolation and linear algebra to deal with projects.
POWER SEMICONDUCTOR CO1: Apply knowledge of physics of semiconductor and electronic
DEVICES devices to develop and control power electronic systems.
CO2: Describe, analyze characteristics and compare various types of
power semiconductor devices for theoretical and practical context. CO3:
Identify and prioritize the use of power devices in various power
electronic systems and control applications.
CO4: Apply the concept of thermal design for various power electronic
equipment’s.
CO5: Develop skills and apply the principles to explore the possibility of
emerging power semiconductor devices in different areas and prepare a
technical report
SOLID STATE POWER CO1: Analyze the performance of single phase and three phase AC- DC
CONTROLLERS converters in all the modes of operation.
CO2: Analyze the performance of single phase and three phase
inverters and evaluate.
CO3: Analyze and evaluate different PWM schemes for voltage control
and harmonic reduction in inverters.
CO4: Conduct performance analysis of different choppers.
CO5: Conduct experiment / simulation studies on single phase and
three phase power electronic converters and write a report.
MODELING AND CO1: Apply mathematical skills and modelling methods to represent a
SIMULATION OF POWER physical system.
ELECTRONIC SYSTEMS CO2: Design and develop digital controllers to control Power Electronics
systems parameters.
CO3: Develop various Power Electronics circuits using modern
engineering software tools and prepare a technical report.
CO4: Analyze performance of various Power Electronics circuits.
DIGITAL MEASUREMENTS CO1: Realize the significance of digital based measurements using
(Elective) Microprocessor/Microcontroller.
CO2: Analyze time and frequency measurement techniques and apply
the knowledge for the design of various circuits.
CO3: Realize and design different D/A converters.
CO4: Design A/D converters and apply the concept of voltage
measurement technique for various systems.
MODELING AND ANALYSIS CO1: Apply basic concepts of modeling for DC Machines, three phase
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

OF ELECTRICAL MACHINES induction machine and synchronous machines.

(Elective) CO2: Model a single phase & three phase transformers,
autotransformers and transmission line.
CO3: Carry out the dynamic performance analysis of synchronous
machines.
POWER ELCTRONICS IN CO1: Acquire in-depth knowledge of Smart Grid, distributed generation,
SMART GRID Electro Magnetic Compatibility (EMC) in power system, high frequency
(Elective) AC power distribution platforms and analyze power quality problems in
an electricity network.
CO2: Apply the concept of distributed generation and solve the problem
of its integration with the existing power system network. CO3: Learn
and explain in the form of presentation and report about different active
power controllers used in different places of power system network.
CO4: Analyse the importance of different energy storage systems in the
smart grid concept of complex power system.
EMBEDDED SYSTEM CO1: Apply the basic concepts and design an embedded system for real
DESIGN time applications.
(Elective) CO2: Analyze different techniques to provide solutions for practical
problems.
CO3: Evaluate and select a high performance processor to develop a
real time system.
CO4: Present and prepare a technical report for a specific real time
embedded system.
CMOS VLSI DESIGN AND CO1: Apply the basics of CMOS technology and its characterization and
SYSTEM ON CHIP performance Estimation.
(Elective) CO2: Analyze the design strategies and testing methods for CMOS sub-
systems.
CO3: Identify various SoC design structures.
CO4: Realize SoC system design models in computation, co design and
prepare a technical report.
ADVANCED CONTROL CO1: Create state models for continuous and discrete time systems.
SYSTEM CO2: Identify appropriate techniques to analyze both continuous and
(Elective) discrete systems for controllability and observability
CO3: Apply relevant concepts to design continuous and discrete systems
with state feedback to meet the specifications.
RESEARCH METHODOLOGY CO1: Able to write and present a substantial technical report/document
& IPR (INSTITUTION CORE CO2: Able to demonstrate a degree of mastery over the area of
COURSE) specialization
II Sem
AC AND DC DRIVES CO1: Analyze AC-DC Drives circuits critically, in a wider theoretical
context.
CO2: Evaluate and choose the appropriate converter topology for
different AC-DC drives circuits.
CO3: Develop simulation models for AC-DC drives systems prescribed in
the curriculum.
CO4: Apply appropriate techniques, design and tools, to conduct
experiments, compare and analyze the hardware results with that of
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

simulation results and prepare a technical report.

SWITCHED MODE POWER CO1: Analyze the performance of basic converters for CCM and DCM
CONVERSION operation.
CO2: Carry out the performance analysis of derived converters and
evaluate.
CO3: Analyse the dynamic response of converter using state space
averaging and design controller.
CO4: Apply the concept of resonant converters and conduct
performance studies of different resonant converters.
CO5: Conduct experiment/simulation studies on basic converters and
derived converters for CCM/DCM operation and prepare a technical
report.
CO6: Design magnetic components for high frequency SMPS and submit
a report.
FACTSCONTROLLERS IN CO1: Model and analyze the AC transmission lines with and without the
POWER TRANSMISSION FACTS controllers.
AND DISTRIBUTION CO2: Design controllers for various FACTS controllers.
CO3: Analyze the performance of FACTS controllers.
CO4: Carry out simulation/activities on FACTS controllers and prepare
technical reports.
POWER ELECTRONICS CO1: Analyze power electronic systems using ICs.
SYSTEM DESIGN USING CO2: Design high performance power electronic circuits using different
ICs ICs for various applications.
(Elective) CO3: Design a Power Electronic System using Microcomputer and DSP
Control.
CO4: Analyze the performance of a Power Plant using Programmable
Logic Controller.
CO5: Think laterally and originally to solve power electronic circuits, and
evaluate problems for Practical switching power supplies and prepare a
report.
HVDC TRANSMISSION CO1: Justify the application of AC or HVDC transmission systems based
SYSTEMS on the power transmission scenario such as quantum of power to be
(Elective) transferred, economics, reliability factors, etc.
CO2: Model HVDC transmission systems.
CO3: Analyze the HVDC transmission systems.
CO4: Design various controllers and filters for HVDC systems.
PWM CONVERTERS AND CO1: Develop and analyze various PWM Techniques for converters.
APPLICATIONS CO2: Analyze & estimate the various losses in converters.
(Elective) CO3: Model the PWM Converters and Induction motor drives.
CO4: Apply various compensation techniques for the converters.
POWER QUALITY CO1: Analyze the Power quality issues and concerns of the country.
ENHANCEMENT USING CO2: Identify the type of Power quality problems with reference to
CUSTOM POWER DEVICES IEEE/IET standards.
(Elective) CO3: Analyze, evaluate and realize the control techniques for power
quality problems.
CO4: Decide on choosing the necessary monitoring equipment and
mitigation techniques.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

ELECTRO MAGNETIC CO1: Analyse the fundamentals and reasons for noise in Analog
COMPATIBILITY electronics, Power electronics and Digital electronics circuit.
(Elective) CO2: Design and develop filters for Analog electronics, Power electronics
and Digital circuits for reduction of noise.
CO3: Design the various types of grounding systems and get
familiarised with handling electro static discharge systems, testing
standards and Regulations.
CO4: Acquire knowledge about testing standards and regulations.
ELECTRIC VEHICLES CO1: Acquire in depth knowledge of the electric vehicle system and its
(Elective) components and various modes of operation.
CO2: Estimate and analyze the performance parameters including
energy consumption, tractive effort etc. associated with an electric
vehicle under different conditions of operation and also various types of
electric drive systems suitable for electric vehicle operation.
CO3: Design a battery operated electric vehicle for a given specification.
CO4: Prepare and present a technical report on modeling and operation
of Electric vehicles.
RENEWABLE ENERGY & CO1: Acquire in depth knowledge about different types of renewable &
PHOTOVOLTAICS non-renewable sources and the physics of photovoltaic system.
(Institutional Elective) CO2: Apply knowledge of mathematics to solve problems related to
solar radiation & measurement, basic sun earth angles, and cell
characterization.
CO3: Analyze the concept of MPPT Algorithms, economic aspects of PV
systems and design of charge controllers.
CO4: Design and model PV cells & modules for roof top and grid
connected systems and analyze the issues related to grid integration,
interfacing and power quality.
MICRO & SMART SYSTEMS CO1: Acquire in depth concept of micromachining technologies namely
(Institutional Elective) vacuum pump, deposition techniques and lithography and acquire
knowledge about integration of microsystem.
CO2: Apply the knowledge of applied physics to know the principle of
operations of different sensors & actuators.
CO3: Analyze mode of operation of different characterization techniques
like SEM, XRD and TEM and further analyze different electronic circuits
to control micro systems.
CO4: Prepare and present a technical report on effects of scaling in
different domain in Micro Systems
III Sem
INTERNSHIP CO1: Get an insight into the company profile and understand the
organizational structure.
CO2: Apply and correlate theory and practice.
CO3: Communicate effectively regarding complex Engineering activities.
CO4: Demonstrate knowledge and understanding of Engineering &
Management principles of the company.
CO5: Engage in life-long learning with a commitment to improve
knowledge and competence continuously.
CO6 : Acquire professional & intellectual integrity and its impact on the
society.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRICAL ENGINEERING

CO7 : Observe and examine critically and make corrections cautiously.

PROJECT WORK (I- CO1: Carry out literature survey, and formulate a complex engineering
PHASE) problem.
CO2: Apply the fundamental knowledge of mathematics, engineering
and Power Electronics principles in design of solutions or system
components.
CO3: Identify, Select, and apply a suitable engineering/IT tool in
modeling/data interpretation /analytical studies, conduct experiments
leading to a logical solution.
CO4: Design a system/system component, simulate and test its
functioning as a solution to a complex engineering problem.
CO5: Communicate effectively the work carried out before the expert
committee.
IV Sem
PROJECT WORK (FINAL CO1: Carry out literature survey, and formulate a complex engineering
PHASE) problem.
CO2: Apply the fundamental knowledge of mathematics, engineering
and Power Electronics principles in design of solutions or system
components
CO3: Identify, Select, and apply a suitable engineering/IT tool in
modeling/data interpretation /analytical studies, conduct experiments
leading to a logical solution.
CO4: Design a system/system component, simulate and test its
functioning as a solution to a complex engineering problem.
CO5: Develop a prototype model for the project work
CO6 : Develop good technical reports and publications in reputed
conferences / journals based on project work results.
CO7 : Communicate effectively the work carried out before the expert
committee.
CO8: Manage project work in the core Power Electronics domain within
the stipulated time.
TECHNICAL SEMINAR CO1: Carryout literature survey, and choose a relevant topic reported in
recent IEEE conference publications / transactions in the domain of
Power Electronics.
CO2: Simulate and analyze the results reported in the chosen paper for
seminar topic.
CO3: Communicate effectively before the expert panel and develop
technical reports.
CO4: Respond to the queries raised by the evaluation committee and
audience
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

Name of the Programme B.E. in Electronics & Communication Engineering

Programme Specific Outcomes 1. Analyse and design electronic systems for signal processing
(PSOs) and communication applications.
2. Demonstrate the Conceptual domain Knowledge with
respect to Architecture, Design, Analysis and Engineering
deployment in Data communication and Computer
networking.

3. Identify and apply domain specific tools for design,

analysis, synthesis and validation of VLSI and Communication
systems.
Programme Outcomes (POs) PO1 to PO12
1. Engineering knowledge: Apply the knowledge of
mathematics, science, engineering fundamentals, and an
engineering specialization to the solution of complex
engineering problems.
2. Problem analysis: Identify, formulate, review research
literature, and analyze complex engineering problems
reaching substantiated conclusions using first principles of
mathematics, natural sciences, and engineering sciences.
3. Design/development of solutions: Design solutions for
complex engineering problems and design system
components or processes that meet the specified needs
with appropriate consideration for the public health and
safety, and the cultural, societal, and environmental
considerations.
4. Conduct investigations of complex problems: Use
research-based knowledge and research methods including
design of experiments, analysis and interpretation of data,
and synthesis of the information to provide valid
conclusions.
5. Modern tool usage: Create, select, and apply
appropriate techniques, resources, and modern
engineering and IT tools including prediction and modelling
to complex engineering activities with an understanding of
the limitations.
6. The engineer and society: Apply reasoning informed by
the contextual knowledge to assess societal, health,
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
safety, legal and cultural issues and the consequent
responsibilities relevant to the professional engineering
practice.
7. Environment and sustainability: Understand the impact
of the professional engineering solutions in societal and
environmental contexts, and demonstrate the knowledge
of, and need for sustainable development.
8. Ethics: Apply ethical principles and commit to professional
ethics and responsibilities and norms of the engineering
practice.
9. Individual and team work: Function effectively as an
individual, and as a member or leader in diverse teams,
and in multidisciplinary settings.
10. Communication: Communicate effectively on complex
engineering activities with the engineering community and
with society at large, such as, being able to comprehend
and write effective reports and design documentation,
make effective presentations, and give and receive clear
instructions.
11. Project management and finance: Demonstrate
knowledge and understanding of the engineering and
management principles and apply these to one‟s own
work, as a member and leader in a team, to manage
projects and in multidisciplinary environments.
12. Life-long learning: Recognize the need for, and have the
preparation and ability to engage in independent and life-
long learning in the broadest context of technological
change.
13.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Course Outcomes (COs) 2018-19
I sem/II Sem
SUBJECT Course Outcome
ELEMENTS OF ELECTRONICS CO1: Understand the Concepts of Electronic Devices and
ENGINEERING Circuits and realize the Applications of Electronics in
Interdisciplinary Engineering Domains.

18EC1ICEEE/18EC2ICEEE CO2: Apply the basic principles of Electronics to solve Analog

and Digital circuits.
CO3: Analyze the characteristics/performance parameters of
Electronic Circuits.
CO4: Design basic Electronic Circuits for given Specifications.

III Sem
ADVANCED ENGINEERING CO1: Obtain numerical solution a system of algebraic
MATHEMATICS equations, algebraic and transcendental equations and
ordinary differential equations.

15MA3GCAEM CO2: Obtain numerical solution a system of algebraic

equations, algebraic and transcendental equations and
ordinary differential equations.

CO3: Solve partial differential equations with appropriate

boundary conditions using the method of separation of
variables

CO4: Construct analytic functions and simple conformal

mappings
CO5: Evaluate real and complex integrals using the calculus of
residues

LINEAR CIRCUIT ANALYSIS CO1: Apply the basic circuital laws and network theorems to
linear circuits, and two port networks.
15ES3GCLCA CO2: Formulate tie–set and cut-set matrices for network
topology and Analyze a linear circuit in time and frequency
domain.

CO3: Simulate a linear circuit using appropriate tool.

ANALOG MICROELECTRONICS CO1: Apply the knowledge of working principle of electronic

devices to arrive at suitable conclusions for a given analog
electronic circuits

15ES3GCAMC CO2: Analyze the given analog electronic circuit with a given
specifications to compute required parameters
CO3: Design analog electronic circuits for given problem
statement by applying analog circuit concepts.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
CO4: Conduct experiments to demonstrate the application of
analog electronic circuits using analog components.

CO5: Work in a team to analyze and demonstrate an

application using analog electronic components by engaging in
self learning.

DIGITAL ELECTRONICS CO1: Apply the knowledge of digital circuit concepts to

optimize a digital circuit.
15ES3GCDEC CO2: Analyze digital circuits and arrive at suitable conclusions

CO3: Design a digital circuit for given problem statement by

applying the digital circuit concepts
CO4: Conduct experiments using digital ICs to demonstrate a
given application / problem statement.
CO5: Work in a team to demonstrate an application of digital
circuits by engaging in self-learning

FIELDS AND WAVES CO1: Apply the concepts of static Electric & Magnetic fields to
study Time-varying electro-magnetic field
15ES3GCFAW CO2: Analyze propagation of uniform plane waves in different
media
CO3: Self-learning through listening and comprehension of
audio/video lectures related to electromagnetic fields and
waves domain

SIMULATION LABORATORY - 1 CO1: Make use of MATLAB features to represent data and
model systems
15EC3DLSL1 CO2: Examine simulated data in various formats for solving
Engineering problems
CO3: Model and simulate basic Engineering problem using
MATLAB and SIMULINK

IV Sem
DISCRETE MATHEMATICS AND CO1: Understand the notation of set theory, relations and
PROBABILITY functions.
15MA4GCDMP CO2: Construct a Hasse diagram for partial orderings, Use
many terms associated with graphs and prove whether two
graphs are isomorphic.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
CO3: Obtain the probability of an event using discrete and
continuous distributions, including the n-step transition
probability.

CO4: Analyse and classify simple states current/transient

CO5: Understand, derive and apply the properties of the
M/M/m queuing model (properties like stationary probability,
average waiting and system time, expected number of
customers in the queue)

VERILOG HDL PROGRAMMING CO1: Apply the knowledge of HDL for modeling and functional
verification of digital circuits.
15ES4DCHDL CO2: Analyze digital circuits using suitable Verilog HDL
modeling
CO3: Design and synthesize a digital circuit for complex
systems using Verilog HDL and state machines
CO4: Program and synthesize a given application / problem
statement using EDA tools

ANALOG INTEGRATED CIRCUITS CO1: Apply the knowledge of network theorems to analog
integrated circuits
15ES4GCAIC CO2: Analyze analog integrated circuits to obtain the response
at different points that meet desired specifications.

CO3: Design an analog circuit for given problem statement by

applying the analog integrated circuit concepts

CO4: Conduct experiments using analog ICs to demonstrate a

given application / problem statement.
CO5: Work in a team to demonstrate an application of analog
integrated circuits by engaging in self-learning

MICROCONTROLLERS CO1: Apply the programming concepts to provide solution to

a given problem using embedded ‘C’/assembly program

15ES4GCMCS CO2: Analyse the given data to program the device for time
critical application
CO3: Design a system for control application using 8051 to
perform multiple tasks
CO4: Use simulator to debug and execute assembly and
embedded C code.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
CO5: Engage in self-study to design a system to demonstrate
the applications of microcontroller for health, safety,
environment and society.

SIGNALS AND SYSTEMS CO1: Apply various properties of transform techniques to

solve the continuous and discrete Linear Time Invariant
Systems

15ES4GCSAS CO2: Analyze various methods to categorize the LTI Systems

and identify solutions for mathematical representation of
systems.

CO3: Self-learning on enhanced topics of signals and systems

through online course

TECHNICAL WRITING AND CO1: Identify and understand the primary genres of technical
DOCUMENTATION writing, including, project reports, project proposals, technical
descriptions (manuals), product documents, user manual,
release notes, Technical paper, recommendation reports,
letters, memos, resumes and cover letters.

15EC4DCTWD CO2: Exposure to documentation deliverables

CO3: Writing and documenting using industry standard tools

Mathematics-I CO1: Understand the basic concepts of differentiation and

integration.
15MA3IMMAT CO2: Apply the concepts of polar curves and multivariate
calculus.
CO3: Apply analytical techniques to compute solutions of first
and higher order ordinary differential equations.
CO4: Apply techniques of vector calculus to engineering
problems
CO5: Comprehend the generalization of vector calculus in
curvilinear coordinate system.

Mathematics-II CO1: Use Laplace transforms to solve differential equations

15MA4IMMAT CO2: Apply double integrals to compute areas.

CO3: Learn to use triple integrals in computing volumes.
CO4: Use Gamma and Beta functions to evaluate integrals.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
CO5: Ability to understand the use of integral calculus in
scalar and vector fields.

V Sem
Communication Theory - 1 CO1: Apply various concepts of theorems and Transforms for
computing parameters of Communication systems
16EC5DCCT1 CO2: Analyze performance of different types of Analog
modulation Techniques for a given set of parameters
CO3: Design Analog Communication subsystems for given set
of specifications
CO4: Simulate and conduct experiments on different types of
Analog communication subsystems
CO5: Involve in independent/team learning, Communicate
effectively and engage in life-long learning

Digital Signal Processing CO1: Apply the concepts of transform techniques in realizing
Discrete time signal and Digital filters
16EC5DCDSP CO2: Analyze various transform techniques for discrete time
signals and various methods to design digital Filter
CO3: Design of Analog and Digital Filters for given
specifications.
CO4: Simulation and verification of various transform
techniques and filter Design
CO5: Engage in self-study to design and demonstrate an
application of digital signal processing

Fundamentals of VLSI CO1: To Apply the knowledge of CMOS technology to

construct basic and advanced CMOS logic circuit like memory
& array subsystems

16EC5DCFOV CO2: Analyse the ideal & non ideal IV effects of MOSFET and
DC transfer characteristics CMOS circuit
CO3: Design of CMOS based combinational and sequential
circuits for given specification

Microwave Engineering CO1: Apply concepts of Fields and Networks to study working
principles of specific microwave active/passive devices,
transmission lines/microwave devices

16EC5DCMWE CO2: Analyze microwave networks and components using S-

parameters
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
CO3: Gain knowledge on effect of microwaves on human body
, impact of the professional engineering solutions on
environment and society and the consequent responsibilities
relevant to an EC engineer

Control System CO1: Understand Basic control systems and applying different
techniques to reduce system and determine stability.

16EC5DCCSM CO2: Analyzing system performance and stability using

different approaches.
CO3: Evaluation of system performance by varying system
parameters of the control systems.
CO4: Create, Apply and analyze control system problems
using MATLAB or Simulink tool

OOPs using C++ CO1: Apply knowledge of object-oriented concepts to

implement a given problem statement.
16EC5DE1OP CO2: Design and analyze solution to a given problem using
C++.
CO3: Simulate and document the given application using
Object Oriented approach.

Advanced Digital Logic Design CO1: Apply the concepts of Digital design to create digital
building blocks using Verilog.
16EC5DE1AL CO2: Analyze the RTL timing to report violations and
synthesize to generate gate level netlist.
CO3: Design of RTL using finite state machines along with
design optimization.
CO4: Simulate and debug the design using test benches and
analyze the synthesis timing and power reports.

Image Processing CO1: Apply enhancement and restoration techniques to 2D

images in spatial and frequency domain for required
visualization.

16EC5DE1IP CO2: Analyze and represent an image using transform

techniques in different domains.
CO3: Interpret image in various data formats by applying
image transformation / processing techniques for different
applications.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
VI Sem
Communication Theory - 2 CO1: Apply the knowledge of various signal processing and
coding techniques for effective communication in digital
systems
16EC6DCCT2 CO2: Analyze the performance of a given digital
communication system
CO3: Design a digital communication system for a given set of
specifications.
CO4: Conduct experiments / simulate to demonstrate a given
application / problem statement in digital communication
CO5: Engage in self-learning of advanced concepts and
application of Digital Communication

Mixed Signal Design CO1: Apply the knowledge of basic CMOS technology to
understand and explain the concepts of analog integrated
circuits and mixed signal circuits

16EC6DCMSD CO2: Analyze CMOS based Analog, ADC and DAC circuits
CO3: Design analog CMOS integrated circuits and mixed
signal circuits
CO4: Conduct experiments on Analog and mixed signal CMOS
circuits using modern EDA tools
CO5: Engage in self learning to design and demonstrate an
application using CMOS based mixed signal circuits

Computer Communication CO1: Apply the concepts of Computer Networks and Networks
Networks Models for Data Communication.
16EC6DCCCN CO2: Analyze networking architecture and infrastructure for
wired and wireless link.
CO3: Skill to substantiate design and performance issues in
LANs for a given specification.
CO4: Ability to submit a report on the impact/growth of wired
and wireless network for societal and sustained development.

Antenna and Wave Propogation CO1: Apply the concepts & properties of Electro-Magnetism to
obtain parameters of antennas and Wave Propagation

16EC6DCAWP CO2: Analyze different types of antennas, characteristics of

radio-waves and their propagation in the atmosphere
CO3: Effectively prepare and present a seminar/case study on
assigned topics related to Advanced topics/Safety
measures/antenna design as an individual/team
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

Advanced Digital Logic Verification CO1: Apply the knowledge of OOPs concepts, system Verilog
constructs and data types to create verification environment

16EC6DE2LV CO2: Analyze coverage driven verification for given design

under test(DUT)
CO3: Design solutions to obtain 100% code coverage and
functional coverage by determining the set of input constraints
and assertions in test benches.

CO4: Simulate the layered test bench architecture using

system Verilog and analyze coverage reports

Operating Systems CO1: Apply the knowledge of different classes and structure of
operating system and requirement of system protection.

16EC6DE2OS CO2: Analyze the scheduling, page replacement policies for

the process requirement, memory management in an
operating system

CO3: Analyze the device management and identify need for

operating systems in the field of communication and computer
networks and pursue life-long learning in it.

Data Structures and Algorithm CO1: Apply programming concepts to realize various data
structures
16EC6GE1DA CO2: Analyze the suitability of a given data structure for a
given application
CO3: Develop a data structure for a given application/s

Sensor Technology CO1: Apply the concepts of physics to understand the principle
of sensing physical parameters
16EC6GE1ST CO2: Analyze the working of analog and digital transducers in
engineering applications

Advanced Microcontrollers and CO1: Apply the acquired knowledge on ARM7 and ARM Cortex
Applications m3 architecture, their features and instruction set in
programming the ARM processor.

16EC6GE1AM CO2: Analyze the architectural features of ARM7 and Cortex

M3, concepts on system software and communication
protocols to design ARM based embedded applications.

CO3: Design and develop ARM based embedded applications.

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

VII Sem
Data Communication Networks CO1: Apply the concepts of Networks layer protocols to deliver
packets across Multiple Networks (links).
16EC7DCDCN CO2: Analyze issues of routing and congestion mechanism for
independent and internetworking networks for wired and
wireless link.

CO3: Design, calculate, and apply subnet masks and routing

addresses to fulfill networking requirements.
CO4: Create Network for given specification and conduct
experiments within a simulated networking environment.

CO5: Involve in independent learning on contemporary issues

in networking technologies, Communicate effectively and
prepare a report.

Embedded System Design CO1: Apply the embedded system models, features of
processors, memory and I/O systems in developing embedded
System.

16EC7DCESD CO2: Analyze the embedded OS functionality and device

drivers used in multitasking embedded applications.
CO3: Design embedded applications using given specifications
and concepts of development process.
CO4: Demonstrate practical experiments on developing
embedded systems.
CO5: Engage in self learning in analyzing and carrying out
embedded projects.

Power Electronics CO1: Apply basic circuit theory concepts to solve Power and
control circuits in power electronics domain
16EC7DCPEL CO2: Identify and Analyze power electronics circuits for a
given task/application and draw valid conclusions with suitable
assumptions

CO1: Design solutions to meet the given specifications of

controlled rectifiers, dc-dc converters, inverters and few basic
triggering circuits

CO2: Conduct experiments & carry out data interpretation on

power electronic circuits with valid conclusions and individually
/ in a team to prepare a report and make an effective
presentation.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Project for Community Service CO1: Ability to apply knowledge to identify, gather information
and analyse to formulate the problem definition for project
through detailed investigation.

16EC7DCPW1 CO2: Ability to use appropriate tool/tools to implement and

demonstrate the defined project.
CO3: Ability to design and develop sustainable
solution/system for the betterment of the society.
CO4: Ability to make effective presentation of the work with
professional ethics as an individual or a member of a team.

CO5: Ability to develop sustainable system with scope for

enhancement and continue life-long learning.

Internet of Things CO1: Apply the Knowledge of architecture, algorithms and

schemes in Internet of things from a global context
16EC7GE2IT CO2: Analyze the data base using efficient Algorithms
CO3: Design protocols and test on scenarios for improving
effective implementation of IOT
CO4: Implement IOT applications and open source platform
for data analytics

Multimedia Communication CO1: Apply the basic communication knowledge on

multimedia with applications
16EC7GE2MC CO2: Analyze various data compression techniques and
algorithms for audio and video systems
CO3: Explore different multimedia concepts applied to internet

Computer Vision CO1: Apply various segmentation, feature extraction and

representation techniques for a give pattern analysis problem

16EI7GE2CV CO2: Analyse various pattern recognition and classification

schemes to perform a specific computer vision task

CO3: Design 3D visualization models to process a 3D object

and perform a specific computer vision task

Network Security & Cryptography CO1: Apply the knowledge of encryption and security
techniques along with cyber forensics to fulfil the societal
needs

16EC7DE3NS CO2: Analyse the different types of encipherment techniques

along with key exchange mechanisms.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

System on Chip CO1: Apply concepts of Moores law, CMOS scaling to

understand the System on Chip with its need, evolution,
challenges, goals, superiority over system on board & stacked
ICs in package.

16EC7DE3SC CO2: Analyze Typical goals in SoC design and also inter
connect architecture
CO3: Design solutions for issues at system level, and issues of
Hardware-Software co design

Low Power VLSI CO1: Apply the concept of power analysis in simulators at
different levels of design abstraction.
16EC7DE3LV CO2: Analyze power dissipation using mathematical and
probabilistic approach in digital logic cells and compare the
various clock tree synthesis methods. The

CO3: Determine various circuit techniques for low power logic

cells.

Fundamentals of Mobile CO1: Acquire the knowledge of mobile communications

Communication fundamental and standards, GSM, GPRS and 3G systems. And
apply this concepts in solving fundamental traffic problems

16EC7IE1MC CO2: Investigate on m commerce life cycle, financial

services, entertainment services, - content development and
distribution and caching, through literature survey and use
cases

VIII Sem
Intellectual Property Rights & CO1: Ability to understand and commit to professional ethics
Cyber Law and responsibilities to obtain Intellectual property Rights like
Patents, Copyright & Trademarks

16HS8GCIPL CO2: Understand the impact of Patents, Copyright &

Trademarks and demonstrate the knowledge of Cyber Law for
the societal and environmental context

CO3: Ability to use IPRs and Cyber Law to access societal,

health, safety & Cultural issues
CO4: Ability to work in multiple teams to effectively
communicate IP & Cyber Law.

Project Management & Finance CO1: Apply the Knowledge of project management principles
and to implement project management methodologies
required for successful project completion
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
16HS8GCPMF CO2: Develop Ethical principles in project planning and
execution as a team and documentation in project
implementation

CO3: Identify and Apply finance aspects for project

implantation in time
CO4: Use modern tools to simulate their respective projects,
case studies and investigate the behaviour under various
operating conditions.

Electronics & Communication for CO1: Apply the concepts of Electronics and Communication
Sustainable Development Engineering to solve societal issues

16EC8DCECS CO2: Review and analyse the performance of the Electronic

system for the specific societal issues.
CO3: Able to identify and develop process that meets specified
needs with appropriate considerations for environment
Understand the impact of Electronics & communication
Engineering for the sustainable development

CO4: Develop awareness about current global and

contemporary issues in technology and science and skills to be
life-long learners

Internship/Technical Seminal CO1: Investigate some of the current scientific trends/issues

facing society
16EC8DCSMR CO2: Practice skills that are necessary for any
engineer/academic learner

Major Project CO1: Ability to apply knowledge to identify, gather information

and analyse to formulate the problem definition for project
through detailed investigation.

16EC8DCMPJ CO2: Ability to use appropriate tool/tools to implement and

demonstrate the defined project.
CO3: Ability to design and develop sustainable
solution/system for the betterment of the society.
CO4: Ability to make effective presentation of the work with
professional ethics as an individual or a member of a team.

CO5: Ability to develop sustainable system with scope for

enhancement and continue life-long learning.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Automotive Electronics CO1: Apply the knowledge of engineering and science to
analyze the performance of Electronic Engine Control,
working of sensors and actuators

16EC8IE2AE CO2: Analyze the vehicle level Electronic Control for

automotive subsystems.
CO3: Gain insight about building future automotive
subsystems that contributes to the safety and health of the
society using block diagram approach

Course Outcomes (COs)

Name of the Programme MTech – Electronics

Programme Educational
Objectives (PEOs)
Programme Outcomes (POs) PO1: An ability to independently carry out research
/investigation and development work to solve practical
problems

PO2: Ability to write and present a substantial technical

report/document

PO3: Students should be able to demonstrate a degree of

mastery over the area as per the specialization of the
program. The mastery should be at a level higher than the
requirements in the appropriate bachelor program

Course Outcomes (COs) 2018-19

MTECH ELECTRONICS
2018 BATCH
I SEM
Applied Mathematics CO1: Demonstrate knowledge and understanding of the
underlying concepts of random variables and stochastic
processes (PO3)
18ECELBSAM CO2: Demonstrate knowledge of the mathematical concepts
and computational aspects of linear algebra and graph theory
(PO3)
CO3: Analyse domain related engineering problems and
develop analytical problem solving approach making use of
the theoretical concepts (PO1)
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Advanced Embedded Systems
CO1: Comprehend concepts in the field of Embedded Systems
18ECELGCES
CO2: Apply concepts to build and program Embedded Systems
CO3: Develop C programs for execution on
microcontroller/SOC development board based on ARM
architecture. Develop Python programs to interface with
Embedded Systems.
CO4: Engage on market survey of various available
Computer/Embedded architecture based on performance,
power consumption and prizing criteria.

Advanced Computer Networks CO1: To learn Network architectures and fundamental

protocols.
18ECELPCCN CO2: To understand the knowledge of internetworking
concepts in various applications
CO3: To Analyse and design using various network
parameters

Digital VLSI Design

CO1: Apply the concepts of MOS system in digital VLSI design
18ECELPEVD CO2: Analyse the electrical and physical properties, Switching
characteristics and interconnect effect of a MOS system in
digital VLSI design
CO3: Design dynamic logic circuits, Semiconductors Memory
circuits, and different CMOS logic circuits.
CO4: Use modern tools to simulate Schematic and Layout of
Digital circuits individually/ in group (s) and Make an effective
oral presentation and documentation on advanced topics
related to the course by referring IEEE Journals.

Digital System Design

CO1: Apply the knowledge of constructs and conventions of
Verilog / System Verilog for digital system design.
18ECELPCSD CO2: Analyse different combinational and sequential digital
systems and its design methodology
CO3: Design combinational and sequential digital systems
using Verilog / System Verilog
CO4: Conduct experiments to demonstrate concepts related to
HDL using Verilog/System Verilog
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

CO5: Work in teams to design and demonstrate an application

of digital system using Verilog and make an effective oral
presentation and documentation.

Wireless Sensor Networks

CO1: Demonstrate understanding of the fundamental
problems, tradeoffs, and design issues that arise in sensor
network, as well as identify and critically evaluate sensor
network technologies and solution approaches.
18ECELPESN CO2: Understand the details of several particular protocols, as
example implementations of fundamental principles, and
digest descriptions of specific protocols, extracting the salient
concepts
CO3: Engage in original work and research in the area of
sensor networks

2018 BATCH
II SEM
VLSI Desing and Verification CO1: Ability to acquire knowledge on verification and apply for
VLSI designs
18ECELPCVV CO2: Analyse on verification methodologies and different
types of simulators
CO3: Design a solution to obtain 100% code coverage &
functional coverage by determining the set of input constraints
and assertions in test benches.
CO4: Simulate the test bench architecture using system
Verilog and analyse coverage reports
CO5: Ability to work in team for verification of different digital
system using EDA tool and make an effective oral
presentation

synthesis and Optimization of

Digital Circuits CO1: Understand the process of synthesis and optimization in
a top down approach for digital circuits models using HDLs.
18ECELPCSO
CO2: Apply different scheduling algorithms with resource
binding and without resource binding for pipelined sequential
circuits and extended sequencing models
CO3: Apply different two level optimization algorithms for
combinational circuits
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

CO4: Ability to execute projects after getting familiar with

VHDL and Cadence

Real Time Operating System CO1: Design high performance software applications with real
time deterministic response.
18ECELGCRT
CO2: Configure and Optimize Embedded RTOS to achieve
desired High Performance Computing response.

CO3: Make an effective oral presentation pertaining to RTOS

and related high performance computing concepts.

CO4: Engage on Literature survey about High Performance &

Deterministic systems, both from hardware and software
perspective and submit a report

Scripting Language CO1: Examine Python syntax and semantics and be fluent in
the use of Python flow control and functions.
18ECELPESL CO2: Demonstrate proficiency in handling Strings and File
Systems
CO3: Create, run and manipulate Python Programs using core
data structures like Lists, Dictionaries and use Regular
Expressions
CO4: Interpret the concepts of Object-Oriented Programming
as used in Python.

CO5: Implement exemplary applications related to Network

Programming, Web Services and Databases in Python

Internet of Things CO1: Interpret the impact and challenges posed by IoT
networks leading to new architectural models for various case
studies
18ECELOEIT
CO2: Compare and contrast the deployment of smart objects
and the technologies to connect them to network.
CO3: Elaborate the need for Data Analytics in IoT.

2017 BATCH
III SEM
Internship/Industrial Training CO1: Able to develop a sound theoretical and practical
knowledge of new technologies.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
16ECELPCIN CO2: Able develop domain specific problem solving and critical
thinking skills
CO3: Able to develop individual responsibility towards their
internship goal as well as participate as an effective team
member
CO4: Gain exposure to professional work culture & practices

CO5: Able to develop effective presentation & communication

skills, and create proper documentation of the work

Project Phase - I CO1: Identify a suitable project, making use of the technical
and Engineering knowledge gained from previous courses with
the awareness of impact of technology on the Society and
their ethical responsibilities.
16ECELPCP1 CO2: Collect and disseminate information related to the
selected project within given timeframe.
CO3: Communicate technical and general information by
means of oral as well as written Presentation skills with
professionalism.

2017 BATCH
IV SEM
Technical Seminar CO1: Identify the problem through literature survey by
applying depth knowledge of the chosen domain
16ECELPCTS CO2: Analyse, synthesize and conceptualize the identified
problem
CO3: Communicate clearly, write effective reports and make
effective presentations following the professional code of
conduct and ethics

CO4: Comprehensively study the domains and reflect the

same towards the future enhancements of the work

Project Phase - II CO1: Identify the modern tools required for the
implementation of the project.
16ECELPCP2 CO2: Design, examine critically and implement or develop a
prototype for the identified problem during Phase I
CO3: Communicate technical information by means of oral as
well as written presentation skills with professionalism and
engage in life long learning.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

Name of the Programme MTech – Digital Communication

PEOs 1.
2.
3.
Programme Outcomes (POs) PO1: An ability to independently carry out research
/investigation and development work to solve practical
problems.

PO2: An ability to write and present a substantial technical

report/document.

PO3: Students should be able to demonstrate a degree of

mastery over the area as per the specialization of the program.
The mastery should be at a level higher than the requirements
in the appropriate bachelor program.

Course Outcomes (COs) 2018-19

MTECHDIGITAL COMMUNICATION
2018 BATCH
I SEM
Applied Mathematics CO1: Demonstrate knowledge and understanding of the
underlying concepts of random variables and stochastic
processes

18ECDCBSAM CO2: Demonstrate knowledge of the mathematical concepts

and computational aspects of linear algebra and graph theory

CO3: Analyse domain related engineering problems and

develop analytical problem solving approach making use of
the theoretical concepts

Wireless Networks CO1: To develop the concept of wireless systems in the

context of networks.
18ECDCPCWN CO2: Ability to provide critical analysis of current research
topics in the domain of Wireless Networks and prepare a
technical document and present the same.

CO3: To gain knowledge and analyze various algorithms of

wireless networks and identify various research issues in
wireless networks

Advanced Digital Communication CO1: Acquire a scholarly knowledge of the different signalling
and digital modulation techniques and to compare them in
terms of their constellations, power spectra and bandwidth
etc.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
18ECDCPCDC CO2: Perform characterization of AWGN channels, bandlimited
channels and fading multipath channels, and a critical analysis
of communication systems and receiver design techniques
over different channels.

CO3: Plan and execute basic and advanced simulations

exercises related to digital communications in lab.
CO4: Execute a group study of one advanced topic in digital
communication (through IEEE journal papers).
Prepare a technical documentation and presentation for the
study performed by the team.

Optical Communication Networks CO1: To gain knowledge on design of the latest generation of
transmission systems and networks, and the factors limiting
the system performance

18ECDCPEOC CO2: Ability to execute a group study of one advanced topic in

Optical communication (through IEEE journal papers) prepare
a technical documentation and present the same

CO3: To gain knowledge of the free space optics engineering

Radiating Systems CO1: To provide comprehensive knowledge of different design

and performance parameters of antenna and analyse their
performance based on the radiation mechanisms and design
different types of antenna arrays.

18ECDCPCRS CO2: Apply analytical & numerical approach to understand

different types of antennas arrays
CO3: Understanding the concept of Computational
Electromagnetics
CO4: Usage of modern computational tools in electromagnetic
scattering, propagation, and radiation.
CO5: Ability to provide critical analysis of current research
topics in the domain of antennas and prepare a technical
document and present the same.

software Defined Ratio CO1: Complete understanding of SDR Architecture

18ECDCPESD CO2: Insight into system design from RF perspective
CO3: Understand the concept of smart antenna systems.
CO4: Ability to use modern tools for the design &
implementation of an end to end communication System.

2018 BATCH
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
II SEM
Advanced Wireless Communication CO1: Acquire knowledge about wireless II/O models for real
time channels.
18ECDCPCAW CO2: Ability to analyze the need of diversity and
performance factors of fading multipath channels and MIMO
systems.

CO3: To implement the current research topics in Wireless

communication, preparation of technical documentation and
presentation of the work done

CO4: Ability to independently formulate and analyze the

design of wireless network models using simulator.

Advanced DSP CO1: Ability to acquire the theoretical knowledge of advanced

DSP, including FIR/IIR filter design, multirate DSP and
adaptive filters

18ECDCGCAD CO2: Ability to analyse and apply the theoretical concepts of

DSP to real life problems of practical and numerical nature.
CO3: Ability to select an IEEE journal paper covering a
contemporary application of DSP, conduct appropriate
literature survey pertaining to the topic, and solve and
assimilate the selected paper..

CO4: Ability to create a standard documentation and

presentation of the study performed by their team

Communication System Security CO1: Identify the factors driving the need for network
security and the physical points of vulnerability in simple
networks

18ECDCPESS CO2: Study the various Mechanisms and Protocols that are
available to Establish Protected Communications
CO3: Be able to identify and present real world security
attacks on networks and document the same

Communication Networking Systems CO1: Apply the concepts of Computer Networks and Network
Models for Data Communication.
18ECDCPECN CO2: Analyze existing network protocols and networks.
CO3: Analyze and exemplify current QoS architectures and
mechanisms, the QoS support challenges in future networks
CO4: Ability to identify the future opportunities and challenges
associated with next generation networks and prepare a
technical document.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Quality and Reliability of Engineering CO1: Understand the concepts of quality control, improvement
systems and management and design for quality.
18 ECDCOEQR CO2: Understand the concepts of reliability and carry out
reliability data analysis
CO3: Learn fundamentals of reliability management and risk
assessment and get acquainted with various reliability
prediction and evolution methods.

2017 BATCH
III SEM
Internship/Industrial Training CO1: Develop a sound theoretical and practical knowledge of
new Technologies
16ECDCPCIN CO2: Develop domain specific problem solving and critical
thinking skills.
CO3: Develop individual responsibility towards their internship
goal as well as participate as an effective team member.

CO4: Gain exposure to professional work culture & practices.

CO5: Develop effective presentation, communication skills,

and create proper documentation of the work.

Project Phase - I CO1: Identify a suitable project making use of the technical
and engineering knowledge gained from previous courses with
the awareness of impact of technology on the Society and
their ethical responsibilities.

16ECDCPCP1 CO2: Collect and disseminate information related to the

selected project within given time frame.
CO3: Communicate technical and general information by
means of oral as well as written presentation skills with
professionalism.

2017 BATCH
IV SEM
Technical Seminar CO1: Identify the problem through literature survey by
applying depth knowledge of the chosen domain
16ECDCPCTS CO2: Analyze, synthesize and conceptualize the identified
problem
CO3: Communicate clearly, write effective reports and make
effective presentations following the professional code of
conduct and ethics
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
CO4: Comprehensively study the domains and reflect the
same towards the future enhancements of the work

Project Phase - II CO1: Identify the modern tools required for the
implementation of the project.
16ECDCPCP2 CO2: Design, examine critically and implement or develop a
prototype for the identified problem during Phase I
CO3: Communicate technical information by means of oral as
well as written presentation skills with professionalism and
engage in lifelong learning.

Name of MTech – VLSI & Embedded System

the
Programme
PEOs PEO1: Graduates shall be capable of building their career in related industries, R&D
establishments as well as in Teaching with their scholarly knowledge with respect to
advanced topics in VLSI Design & Embedded system
PEO-2: Graduates shall be capable of conceptualizing and analysing engineering
problems of societal importance related to Design, implement, verification of Integrated
circuit and embedded system, conduct independent research leading to technology
solutions and communicate the outcomes through verbal and written mechanisms.
PEO-3: Graduates shall be able to collaborate, manage and execute projects in teams
using appropriate tools/technologies with utmost professionalism and acceptable good
practices.

Programme PO1: An ability to independently carry out research /investigation and development work
Outcomes to solve practical problems
(POs)
PO2: An ability to write and present a substantial technical report/document

PO3: An ability to demonstrate a degree of mastery over the area of VLSI Design and
Embedded systems. The mastery should be at a level higher than the requirements in
the Electronics and communication engineering program (UG)
Course
Outcomes 2018-19
(COs) MTECH VLSI DESIGN & EMBEDDED SYSTEM
2018 BATCH
I SEM
Applied Mathematics CO1: Demonstrate knowledge and understanding of the
underlying concepts of random variables and stochastic
processes
18ECVEBSAM CO2: Demonstrate knowledge of the mathematical
concepts and computational aspects of linear algebra
and graph theory
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
CO3: Analyse domain related engineering problems and
develop analytical problem solving approach making use
of the theoretical concepts

Advanced Embedded CO1: Comprehend concepts in the field of Embedded

Systems Systems
18ECVEGCES CO2: Apply concepts to build Embedded Systems
CO3: Develop C programs for execution on
microcontroller/SOC development board based on ARM
architecture. Develop Python programs to interface with
Embedded Systems.
CO4: Engage on market survey of various available
Computer/Embedded architecture based on
performance, power consumption and pricing criteria.

Analog IC Design CO1: Develop efficient analytical tools for quantifying

the Analog circuits by inspection, aiming Analog design
octagon.
18ECVEPCAI CO2: Design stable Analog Integrated Circuits to meet
given specification
CO3: Demonstrate Different Operational amplifier
topologies through literature survey in groups.

Static Timing Analysis CO1: Ability to apply the learnt basic concepts of STA to
evaluate the delay of the circuits and analyse the
generated report to identify critical issues and
bottleneck for the violation and suggest the techniques
to make the design to meet timing
18ECVEPEST CO2: Ability to write their own constraint file and create
the environment required for the given design and its
specification to undergo for analysis using the EDA tool.

CO3: Ability to understand the journal research papers

related to Timing analysis techniques and able to
present suitable techniques for the given design.

Digital IC Design CO1: Design, write program and simulate Static and
Dynamic circuits to meet the specification
18ECVEPCDI CO2: Analyse the given circuit to arrive at the
specification
CO3: Engage in literature survey in a group on the topic
related to course and submit a detailed report
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Low Power VLSI Design CO1: Ability to extend the knowledge on basics of
MOSFETs and Power Dissipation in MOS circuits to
obtain the concepts of different techniques for power
optimization.
18ECVEPELP CO2: Ability to use the EDA tool to implement the
designed circuit with techniques of power optimization
in the design and justify obtained report by class room
presentation.
CO3: Ability to understand the journal research papers
related to low power and updates their knowledge for
new techniques to incorporate in projects of the
specified stream.

2018 BATCH
II SEM
Mixed Signal Circuit Design CO1: Demonstrate Transceiver basic building blocks like
PLL, Data converters, Sample and hold circuit.
18ECVEPCMS CO2: Design and simulation of identified blocks of
Transceiver and submit a technical report

Design for Testability CO1: Apply the concept of faults and failure models to
generate the number of fault models & Automatic Test
Pattern Generator (ATPG) for the given design under
test (DUT). Analyze and identify the given fault in given
DUT(can be logic circuit or memory) and conclude the
suitable available solution to test these faults.
18ECVEPCDT CO2: Ability to generate the Automatic Test Pattern
Generation (ATPG) with different techniques using EDA
tool
CO3: Engage on Literature survey and make an effort to
suggest new solution as a team

Real Time Operating System CO1: Design high performance software applications
with real time deterministic response.
18ECVEPCRT CO2: Develop C programs and demonstrate the
concepts of Embedded RTOS.
CO3: Make an effective oral presentation pertaining to
RTOS and related high performance computing
concepts.

System Verilog and CO1: Define, Understand and Explain OOPs concepts
Verification and system Verilog data types, Apply system Verilog
constructs to create verification environment, Analyse
coverage driven verification for given design under
test(DUT)
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
18ECVEPESV CO2: Able to conceptualize and obtain 100% code
coverage and functional coverage by determining the
set of input constraints and assertions in test benches
and able to document the effort to obtain coverage

Physical Design CO1: Demonstrate the basic design flow in VLSI

physical design automation and the basic algorithms
used for implementing the same

18ECVEPEPD CO2: Make an Effective Documentation of Physical

Design Flow using industry level EDA tool.

MEMS and Micro Systems CO1: Understand the fundamentals of MEMS and its
application, scaling, miniaturization, fabrication. Analyse
the working of sensors, actuators and transducers.
Design, modelling and packaging of micro systems

18ECVEOEMM CO2: Able to make Documentation of Innovations in

MEMS and Micro Systems

2017 BATCH
III SEM
Internship/Industrial CO1: Ability to develop a sound theoretical and practical
Training knowledge of new technologies.
16ECVEPCIN CO2: Ability to Develop domain specific problem solving
and critical thinking skills
CO3: Ability to develop individual responsibility towards
their internship goal as well as participate as an
effective team member
CO4: To gain exposure to professional work culture &
practices
CO5: Develop effective presentation & communication
skills, and create proper documentation of the work

Project Phase - I CO1: Identify a suitable project making use of the

technical and engineering knowledge gained from
previous courses with the awareness of impact of
technology on the Society and their ethical
responsibilities.
16ECVEPCP1 CO2: Collect and disseminate information related to the
selected project within given time frame.
CO3: Communicate technical and general information
by means of oral as well as written Presentation skills
with professionalism.

2017 BATCH
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous College, Affiliated to VTU
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
IV SEM
Technical Seminar CO1: Identify the problem through literature survey by
applying depth knowledge of the chosen domain
16ECVEPCTS CO2: Analyse, synthesize and conceptualize the
identified problem
CO3: Communicate clearly, write effective reports and
make effective presentations following the professional
code of conduct and ethics

Project Phase - II CO1: Identify the modern tools required for the
implementation of the project.
16ECVEPCP2 CO2: Design, examine critically and implement or
develop a prototype for the identified problem during
Phase I
CO3: Communicate technical information by means of
oral as well as written presentation skills with
professionalism and engage in lifelong learning.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Name of the
Programme B.E. in Industrial Engineering and Management

Programme 1. Analyze and solve complex industrial engineering problems using

Specific modern tools
Outcomes 2. Provide solutions to complex managerial problems using latest
management techniques
(PSOs)
3. Design and solve manufacturing and allied problems
PO1 Engineering knowledge: Apply the knowledge of mathematics,
science, engineering fundamentals, and an engineering specialization to
the solution of complex engineering problems.

PO2 Problem analysis: Identify, formulate, review research

literature, and analyze complex engineering problems reaching
substantiated conclusions using first principles of mathematics, natural
sciences, and engineering sciences.

PO3 Design/development of solutions: Design solutions for

complex engineering problems and design system components or
processes that meet the specified needs with appropriate
consideration for the public health and safety, and the cultural, societal,
and environmental considerations.

PO4 Conduct investigations of complex problems: Use research-

Programme
based knowledge and research methods including design of experiments,
Outcomes
analysis and interpretation of data, and synthesis of the information to
(POs)
provide valid conclusions.

PO5 Modern tool usage: Create, select, and apply appropriate

techniques, resources, and modern engineering and IT tools including
prediction and modeling to complex engineering activities with an
understanding of the limitations.

PO6 The engineer and society: Apply reasoning informed by the

contextual knowledge to assess societal, health, safety, legal and cultural
issues and the consequent responsibilities relevant to the professional
engineering practice.

PO7 Environment and sustainability: Understand the impact of the

professional engineering solutions in societal and environmental contexts,
and demonstrate the knowledge of, and need for sustainable
development.

1
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

PO8 Ethics: Apply ethical principles and commit to professional ethics

and responsibilities and norms of the engineering practice.

PO9 Individual and team work: Function effectively as an individual,

and as a member or leader in diverse teams, and in multidisciplinary
settings.

PO10 Communication: Communicate effectively on complex engineering

activities with the engineering community and with society at large, such
as, being able to comprehend and write effective reports and design
documentation, make effective presentations, and give and receive clear
instructions.

PO11 Project management and finance: Demonstrate knowledge

and understanding of the engineering and management principles
and apply these to one’s own work, as a member and leader in a team,
to manage projects and in multidisciplinary environments.

PO12 Life-long learning: Recognize the need for, and have the
preparation and ability to engage in independent and life-long learning in
the broadest context of technological change.

Course
Outcomes The COs for all the courses offered - Core and electives are given
(COs)

2
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

3rd Semester

PRODUCTION TECHNOLOGY - I Course Code 1: 15IM3DCPT1

CO PO
Course Outcomes
Number Number
Ability to understand the types of production of the products by
CO1 conventional machining and comprehend the significance between -
conventional and non-conventional methods.
Ability to apply practical and theoretical knowledge to know the
mechanism, calculate machining time, tools required and various
CO2 PO3
operations performed in production lathe, milling machine, shaper,
Planer, slotting machine and Broaching Machine
Ability to analyze Skills and capabilities in the areas of advanced
CO3 manufacturing methods like Rapid Prototyping based on energy PO5
sources and mechanisms employed
Self-study: Ability to design a CAD model and create a product as a
CO4 PO10
part of self-study by Advanced manufacturing methods
Practical: Ability to create the models by using conventional machine
CO5 and understand the creation of Competitive advantages in PO12
manufacturing processes

STRENGTH OF MATERIALS Course Code: 15IM3DCSOM

CO PO
Course Outcomes
Number Number
Ability to understand the concepts and principles of simple and PO1
CO1 compound stresses & strains under various loadings and the effects PO2
of these loadings. PO3
Ability to apply and design structural members subjected to tension, PO1
CO2 compression, torsion, bending, columns and pressure vessels PO2
considering elastic behavior of materials PO3
PO1
Ability to analyze & evaluate the solutions based on a set of criteria
CO3 PO2
for complex engineering problems
PO3
Ability to conduct himself or herself professionally and with regard to PO1
CO4 his or her responsibilities towards society, especially with respect to PO2
designing machine parts and structures to prevent failure PO3

MECHANICAL MEASUREMENTS AND METROLOGY Course

Code: 15IM3DCMMM
CO PO
Course Outcomes
Number Number
Understand the principles and practices of metrology in
CO1 manufacturing environment and analyze uncertainty in an PO1
appropriate manner.
3
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Describe the operating principles of range of widely used instruments

CO2 techniques and illustrate how to use them in the design of measuring PO2
systems.
Identify the methods and devices for measurements of length, angle,
CO3 gear and thread parameters, surface roughness and geometric PO2
features of parts.
Apply the methods of measuring various physical quantities and
CO4 PO3
surface finish.
Use and analyse the regularly available measuring devices and
CO5 PO5
instruments in varieties of applications

ELEMENTS OF ENERGY SYSTEMS Course Code 15IM3DCEES

CO PO
Course Outcomes
Number Number
PO1
Ability to understand the various principles of Fluid and Thermal
CO1 PO2
Sciences.
PO4
PO1
Ability to Apply various fluid /thermal engineering principles towards
CO2 PO2
a working device
PO4
PO1
Ability to Analyze the performance of thermal / fluid devices under
CO3 PO2
influence of different types of force / energy loadings
PO4
PO1
CO4 Ability to evaluate the efficiency / flow of a thermal/ fluid device. PO2
PO4
COMPUTER AIDED MACHINE DRAWING Course Code 15IM3GCCMD
CO PO
Course Outcomes
Number Number
Visualize and Formulate detailed drawing of a given object.
CO1 PO1

CO2 Analyze and interpret a given Production drawing. PO4

CO3 Sketch detailed assembly of mechanical system. PO3
Create 2D and 3D models of standard CAD packages like Solid
CO4 PO5
Edge/Solid Works with manufacturing considerations
4th Semester

INDUSTRIAL ENGINEERING Course Code 15IM4DCIEG

CO PO
Course Outcomes
Number Number
Industrial Engineering: To take the right decisions to optimize POs
resources utilization by improving productivity of the Lands, 1,2,3,4,5,
CO1
Buildings, People, Materials, Machines, Money, Methods and 6,7,8,9,
Management effectively 10,11,12
4
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

POs
Work Study: To use Work Study; to eliminate unproductive activities
1,2,3,4,5,
CO2 under the control of the Management, Supervisor, worker and the
6,7,8,9,
Design of Products and Processes efficiently.
10,11,12
Method Study: To study the methods; to use the Charts to record
POs
the Activities of the people, materials and Equipment to find
1,2,3,4,5,
CO3 alternative methods which minimize waste and to implement the
6,7,8,9,
best practices
10,11,12
Work Measurement: To measurement work; to improve the POs
processes and find the Standard Time. Ergonomics: To design the 1,2,3,4,5,
CO4
Man – Machine System to improve Human Efficiency and reduce the 6,7,8,9,
effort of the workers and fatigue 10,11,12
Latest Trends in Industrial Engineering: To know the about Agile POs
manufacturing, Lean and Six Sigma, Value Engineering, Just in time, 1,2,3,4,5,
CO5
Total quality management, Enterprise resource planning, Supply 6,7,8,9,
chain and logistics management. 10,11,12

STATISTICS FOR ENGINEERS Course Code 15IM4DCSFE

CO PO
Course Outcomes
Number Number
Collect, organize and analyze the data in the real life situation.
CO1 PO1

Apply the correct discrete probability distribution for the given PO2,
CO2
situation. PO3
Identify the correct continuous probability distribution for the
CO3 PO3
given situation and
Set up, test and make decision about hypothesis when
CO4 PO4
uncertainty exists.
identify the degree and direction of relationship among process PO4,
CO5
variables and PO5

MANAGEMENT AND ENTREPRENEURSHIP Course Code 15IM4DCMAE

CO PO
Course Outcomes
Number Number
CO1 Describe the basic principles and concepts of management. PO1

CO2 Distinguish between different plans and planning process. PO1

CO3 Get exposure on the concept of Organizing and Staffing. PO8

CO4 Interpret the concept of Directing and Controlling. PO2

PRODUCTION TECHNOLOGY-II Course Code 15IM4DCPT-II
CO PO
Course Outcomes
Number Number
5
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Ability to understand the various principles of Casting and Welding PO1

CO1 PO2
PO4
Ability to select and Apply different casting / Welding techniques for PO1
CO2 different applications. PO2
PO4
Ability to Analyse the various defects in casting and welding, their PO1
CO3 root causes and preventive measures. Test of specimens using PO2
traditional / NDT methods. PO4
i) Ability to design different casting specimens considering PO1
CO4 manufacturing environment, casting strength and production costs. PO2
PO3
MACHINE DESIGN Course Code: 15IM4DCMCD
CO PO
Course Outcomes
Number Number
Ability to understand the concept of Static & fatigue strength in the PO1
CO1
design of mechanical joints, couplings, shafts, gears and bearings PO2
PO3
Ability to apply knowledge on machine elements used in machine PO1
CO2
design, to withstand loads and deformations for given application PO2
while considering additional specifications. PO3
PO1
Ability to design a problem successfully taking decision when there is
CO3 PO2
not a unique answer.
PO3
Ability to develop analyze and evaluate to use techniques, skills,
PO1
and modern designing and engineering tools necessary for
CO4 PO2
engineering practice
PO3

MATERIAL SCIENCE AND METALLURGY Course Code 15IM4DCMSM

CO PO
Course Outcomes
Number Number
Ability to apply the scientific and engineering principles underlying
CO1 structure, properties, process and performance related to materials PO3
systems.
Ability to create micro structures and phase diagram & understand the
CO2 basic terminologies associated with metallurgy to select metals and PO3
alloys for industrial applications.
Ability to recognize the relationship between Nano/microstructure,
CO3 PO3
characterization, properties and processing and design of materials.
Practical Lab: Ability to investigate common defects in a material,
when they are to be expected, and to know how they affect material's
CO4 PO4
mechanical properties and to prepare formal laboratory reports
describing the results of experiments.
Ability to know the development of Nano materials with a focus on
CO5 PO3
fundamentals, fabrication, characterization, and applications.

6
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

5th Semester

COMPUTERS IN MANUFACTURING Course Code:16IM6DCCIM

CO PO
Course Outcomes
Number Number
Ability to understand and explain the basic concept of a CAD, NC and
CO1 -
CNC system.
Ability to develop manual and APT part programs for 2D complex
CO2 PO1
profiles and test the programs through simulation.
Ability to analyse the error in the program and choose right G and M
CO3 codes to optimize the program and construct the final geometry by PO2
running the simulation using the software.
Ability to program for robot to perform typical tasks including Pick &
PO2,
CO4 Place, Stacking and to develop program for CNC to machine various
PO9
profiles.
Ability to create complex geometries of machine components using
CO5 CAD software. Develop G and M codes for turning and milling PO5
components. Produce the part using CNC machine.

OPERATIONS RESEARCH Course Code:16IM5DCOPR

CO PO
Course Outcomes
Number Number
Ability to understand the concepts, approaches and optimization in
CO1 -
Operation Research Techniques.
Ability to apply and develop the mathematical skills related to
CO2 PO2
Operation Research Techniques.
Ability to analyze and solve network models arising from a wide
CO3 PO3
range of applications
Ability to evaluate real world problems using Operation Research
CO4 PO4
Techniques.

7
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

QUALITY ASSURANCE AND RELIABILITY Course Code:16IM5DCQAR

CO PO
Course Outcomes
Number Number
Ability to understand the underlying reasons for modern quality
CO1 methodologies, acceptance sampling plans and basic reliability -
concepts.
Ability to apply the knowledge of control charts, sampling plans and PO1,
CO2
reliability to real world engineering problems PO4
Ability to analyze and interpret the process data generated
CO3 PO2
overtime for variable and attribute control charts.
Ability to conduct experiments using control charts, sampling plans
PO5,
CO4 and modern tool like Minitab to solve problems for given
PO9
application.
Ability to engage in independent learning, submit a report and use
CO5 ICT for effective presentation of the self- study on assigned topics PO10
related to Quality management.

ENGINEERING ECONOMY Course Code:16IM5DCENE

CO PO
Course Outcomes
Number Number
Ability to understand and explain problem solving & decision
CO1
making process in Engineering Economy -
Ability to apply Engineering Economy tools to compare alternative
CO2 PO1
proposals
Ability to analyze alternative proposals using Engineering Economy
CO3 PO2
tools.
Ability to evaluate alternative proposals using Engineering
CO4 PO3
Economy tools

FACILITIES PLANNING AND DESIGN Course Code:16IM5DCFPD

CO PO
Course Outcomes
Number Number
Ability to understand and explain various factors influencing the
CO1 decision regarding Facilities Planning using traditional and -
computerized techniques.
Ability to apply Facilities Planning and design tools to solve numerical
CO2 PO1
problems to plan and design facilities layout.
Ability to analyze Facilities Planning problems and improve existing PO2,
CO3
layouts for different product lines using modern tools. PO5
Ability to create and evaluate single facility and multiple facility
PO3,
CO4 location situations using MCDM techniques and enabling creative
PO5
application of AHP methods.
8
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Electives:

APPLIED THERMODYNAMICS Course Code: 16IM5DEAPT

CO PO
Course Outcomes
Number Number
CO1 Ability to understand and explain the Laws of thermodynamics -
Ability to apply the concepts and principles of thermodynamics to
CO2 PO1
solve simple and complex engineering problems.
Ability to analyze the complex Engineering problems using
CO3 PO2
principles and concepts of thermodynamics.
Ability to evaluate thermodynamic systems to assess the
CO4 PO4
performance of various systems

PRODUCT DESIGN & DEVELOPMENT Course Code:16IM5DEPDD

CO PO
Course Outcomes
Number Number
Ability to understand and explain the Product design and
CO1 development process. -

Ability to apply the concepts of Product design and development

CO2 process to develop the Engineering products. PO1

Ability to analyze and develop new products using Product design

CO3 and development concepts. PO2

Ability to listen and comprehend audio/video lectures related to

PO10
CO4 product design and development. PO12

ORGANIZATIONAL BEHAVIOR
Course Code:16IM5DEOBE
CO PO
Course Outcomes
Number Number
Ability to understand and explain the concept of organizational
CO1 behavioural theories -

Ability to apply organizational behaviour concepts, models and

CO2 PO1
theories to real life management situations through case analysis
9
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Ability to analyze the behaviour of individuals and groups in

CO3 organizations in terms of organizational behaviour theories, models PO2
and concepts
Ability to demonstrate and communicate effectively in oral and
written forms about organizational behaviour theories and their
CO4 PO9
application using appropriate concepts, logic and rhetorical
conventions.

THEORY OF MACHINES
Course Code: 16IM5DETOM
CO PO
Course Outcomes
Number Number
Ability to understand and explain the concepts of machines,
CO1 -
mechanisms and related terminologies.
Ability to apply various motion transmissions of mechanical
CO2 PO1
elements.
Ability to analyze graphical design aspects of mechanisms and
CO3 PO2
their uses.
CO4 Ability to create mechanisms for carrying out mechanical work. PO3

TOOL ENGINEERING
Course Code: 16IM5DETEG
CO PO
Course Outcomes
Number Number
CO1 Ability to understand and explain the requirements of cutting tools -
Ability to apply combination of cutting tool materials to improve
CO2 PO1
the tool life.
Ability to analyze different cutting tools for different machining
CO3 PO2
processes.
Ability to create cutting tools with advanced materials for different
CO4 PO3
machining processes.

10
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

6th Semester

SIMULATION MODELING AND ANALYSIS

Course Code: 16IM6DCSMA
CO PO
Course Outcomes
Number Number
Ability to understand and explain the fundamental concepts of
CO1 -
Simulation and Modeling for Industrial Engineering stream.
Ability to apply the concepts and techniques of Simulation to
CO2 PO1
formulate and solve Industrial Engineering problems
Ability to analyze Industrial Engineering Problems and interpret and
CO3 PO2
validate
Ability to model and Simulate using software packages to find the PO3
CO4
solution to complex Engineering problems
Ability to create Statistical model using simulation package like Arena PO5,
CO5 / Witness and to perform Sensitivity analysis / Post optimal analysis PO9,
for the generated model PO10

FINANCIAL ACCOUNTS AND COSTING

Course Code: 16IM6DCFAC
CO PO
Course Outcomes
Number Number
Ability to understand and explain the concepts of Financial
CO1 -
accounting and Costing
Ability to apply the financial concepts and techniques to solve
CO2 PO1
Financial accounting and costing problems in an industry.
Ability to analyze and evaluate the financial aspects of accounting,
CO3 PO2
costing and budgeting.
Ability to create the Journal transactions, trial balance, trading PO4,
CO4
account, profit and loss account and balance sheet. PO11

11
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

PRODUCTION AND OPERATIONS MANAGEMENT

Course Code: 16IM6DCPOM
CO PO
Course Outcomes
Number Number
Ability to understand and explain the concepts and principles of
CO1 Production and Operations Management -

Ability to apply concepts and principles of Production and Operations

CO2 Management to solve Engineering and management Problems PO1

Ability to analyze Engineering and management Problems and to

CO3 propose optimal solutions PO2

Ability to design aggregate plans and master schedules, MRP & CRP
CO4 solutions to Industrial Engineering problems PO3

SUPPLY CHAIN AND LOGISTIC MANAGEMENT

Course Code: 16IM6DCSCL
CO PO
Course Outcomes
Number Number
Ability to understand and explain the importance and significance of
CO1 -
inventory in industry.
Ability to apply the supply chain strategies to address societal PO1,
CO2
issues. PO6
Ability to analyze the supply chain drivers and modes of
CO3 PO2
transportation to benefit industry and society.
Ability to evaluate the supply chain performance and infer on
CO4 PO4
effectiveness.
Ability to demonstrate and communicate effectively in oral and
PO5,
written forms about supply chain strategies ,reverse logistics, Six
CO5 PO9,
Sigma and Lean manufacturing with respect to implementation in
PO10
the Industrial Scenario

12
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Electives

FLUID MECHANICS
Course Code: 16IM6DEFM
CO Number Course Outcomes PO Number
Ability to understand and explain the concepts and
CO1 -
principles of Fluid Mechanics
Ability to apply the concepts and principles of Fluid
CO2 PO1
Mechanics to solve engineering problems
Ability to analyze energy transfer in fluid Mechanics to
CO3 PO2
interpret the results.
Ability to evaluate the problems related to Fluid
CO4 PO3
Mechanics.

SOFTWARE ENGINEERING AND MANAGEMENT

Course Code:16IM6DESEM
CO PO
Course Outcomes
Number Number
Ability to understand and explain the concepts and principles of
CO1 -
software project management
Ability to apply the principles and concepts of software project
CO2 PO1
management to solve Engineering and management problems.
CO3 Ability to test the software system to validate the processes. PO2
Ability to design the software to develop the quality assurance
CO4 PO3
concepts

DATA BASE MANAGEMENT SYSTEM

Course Code: 16IM6DEDBM

CO Number Course Outcomes PO Number

Ability to understand DBMS architecture, languages,

CO1 -
interfaces, data modeling
Ability to apply relational model concepts, schemas to
CO2 PO1
business functions, Hashing
Ability to evaluate models, ER Diagrams, system PO4,
CO3
implementation, SQL queries and DBMs systems PO5
Ability to create complex SQL queries, stored PO3,
CO4
procedures. PO4

13
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

WORLD CLASS MANUFACTURING

Course Code: 16IM6DEWCM
CO PO
Course Outcomes
Number Number
Ability to understand and explain the concepts of World Class
CO1 -
Manufacturing Practices, re-engineering, benchmarking etc.
Ability to analyze effective implementation of World-Class
CO2 PO2
manufacturing practices, re-engineering, benchmarking etc .
PO9,
Ability to listen, comprehend and communicate audio/video lectures
CO3 PO10,
related to WCM
PO12

INDUSTRIAL POLLUTION CONTROL

Course Code: 16IM6DEIPC
CO Number Course Outcomes PO Number
Ability to understand and explain various concepts of
CO1 Pollution Control methods and various control -
measures and acts adopted all over the globe.
Ability to apply general consideration of pollution
CO2 control and treatment of E- wastes and radioactive PO1
wastes.
Ability to analyze various practical cases and infer the
CO3 extent of environmental, social and economic damage PO2
due grave industrial disasters all over the globe.
Ability to implement various pollution prevention
CO4 PO5
methods adopted across industries all over the world

ADVANCED OPERATIONS RESEARCH

Course Code:16IM6DEAOR
CO Number Course Outcomes PO Number
Ability to understand the concepts, approaches and
CO1 optimization in Operation Research Techniques. -

Ability to apply and develop the mathematical skills

CO2 PO2
related to Operation Research Techniques.
Ability to analyze and solve network models arising
CO3 PO3
from a wide range of applications
Ability to evaluate real world problems using Operation
CO4 PO4
Research Techniques.

14
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

AUTOMATION IN MANUFACTURING
Course Code: 16IM6DEAIM
CO Number Course Outcomes PO Number
Ability to understand and explain the concepts of
automation and its different types and to find
CO1 -
solutions to the implications of the global factors on
the society.
Ability to apply the knowledge of automated flow
CO2 line, storage buffer line (with and without) to solve PO1
line balancing problems
Ability to analyze different types of automated guided
CO3 vehicles, Vehicle guidance and routing, and system PO2
management.
Ability to develop part families by the of Group
CO4 technology concepts, and apply knowledge on CAPP PO3
and manage product data.

MARKETING MANAGEMENT
Course Code: 16IM6DEMKM
PO
CO Number Course Outcomes
Number
Ability to understand and explain the concepts, principles and
CO1 -
functions of Marketing.
Ability to apply marketing concepts and principles to solve PO1,
CO2
business/corporate marketing problems. PO2
Ability to analyze strategies which enable decision making
CO3 PO2
process.
Ability to use appropriate models and techniques to the study
CO4 PO5
ever-changing environment.
CO5 Ability to create the idea into a viable marketing plan. PO5

HYDRAULICS AND PNEUMATICS

Course Code: 16IM6DEHYP
CO Number Course Outcomes PO Number
Ability to understand and explain the concepts,
CO1 principles and working of hydraulics and Pneumatics -
systems.
Ability to apply concepts and formulae to calculate
CO2 PO1
the performance characteristics of hydraulics
15
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

systems.
Ability to design and analyze hydraulic circuits to PO2,
CO3
perform various tasks using fluid power PO3
Ability to construct and maintain hydraulic and
CO4 PO3
pneumatic systems for various application areas

7th Semester

ENTERPRISE RESOURCE PLANNING

Course Code: 17IM7DCERP
CO Number Course Outcomes PO Number
Ability to understand and explain business functions
CO1 and business processes, concepts , importance of -
ERP
Ability to Apply concepts to the functional modules of
CO2 PO1
ERP software
Ability to evaluate basics of ERP implementation,
CO3 Package selection, transition strategies, PO5
implementation process
PO3,
Ability to implement ERP solutions to various business PO4,
CO4 functions, through self-study and laboratory
PO9,
exercises.
PO10

TOTAL QUALITY MANAGEMENT

Course Code: 17IM7DCTQM
CO PO
Course Outcomes
Number Number
Ability to understand and explain the quality concepts and the
CO1 practical evolution in management, revolution in total quality -
management

CO2 Ability to apply the quality tools and methods in the manufacturing PO1
and service processes
CO3 Ability to analyze the TQM related cases and quality improvement PO2
process

16
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Electives

DESIGN FOR MANUFACTURABILITY

Course Code: 17IM7DEDFM
CO Number Course Outcomes PO Number
Ability to understand and explain the various
CO1 -
principles of Design For Manufacturability
Ability to apply different Manufacturability techniques
CO2 PO1
for different applications.
Ability to analyze various products for their
CO3 underlying manufacturing techniques, and suggest PO2
improvements if required.
Ability to design casting specimens considering
CO4 manufacturing cost, minimize the number of cores PO3
and retain casting strength.

INDUSTRIAL DESIGN AND ERGONOMICS

Course Code: 17IM7DEIDE
CO Number Course Outcomes PO Number
Ability to understand and explain the importance of
CO1 -
ergonomics and aesthetics in industrial design.
Ability to apply industrial design methodology like
CO2 effect of display, size, shape, colour and function PO1
while designing new products.
Ability to analyze the concepts of interfacing man to PO2,
CO3 machine in product design and the effect of
PO6
environment on working efficiency of human beings.
Ability to design and evaluate products for its
CO4 PO3
function, ergonomics and aesthetics.

SYSTEM DYNAMICS
Course Code: 17IM7DESMD
CO Number Course Outcomes PO Number
Ability to understand the concept of system thinking,
CO1 modeling, transfer function, Frequency-domain -
techniques
Ability to apply Characteristics roots and equations for
CO2 space formulation and mathematical modeling of PO1
Dynamic Systems
Ability to develop skills in analyzing Simulating and
CO3 identifying systems based upon their I/P and O/P PO2
responses
Ability to design and analyze the basic feedback
CO4 PO3
systems

17
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

NON-CONVENTIONAL MACHINING
Course Code: 17IM7DENCM
CO Number Course Outcomes PO Number
Ability to understand the various working principles
CO1 -
of Non- conventional processes
Ability to apply various process parameters to achieve
CO2 the optimum machining conditions of various non- PO1
conventional machines.
Ability to analyze the outcomes of various non-
CO3 PO2
conventional machining processes.
CO4 Ability to demonstrate WJM and EDM PO3
Ability to listen and comprehend audio/video lectures
CO5 PO10
related to non-conventional machining

COMBINATORIAL OPTIMIZATION
Course Code : 17IM7DECOO
CO Number Course Outcomes PO Number
Ability to Understand and explain the concepts of
CO1 -
combinatorial optimization
Ability to apply evolutionary Computation Methods to
find solutions to complex problems by genetic
CO2 PO1
Algorithm and the Combinatorial Optimization
methods
Ability to analyze Combinatorial Optimization
CO3 PO2
problems

ARTIFICIAL INTELLEGENCE AND EXPERT SYSTEMS

Course Code: 17IM7DEAIE
CO Number Course Outcomes PO Number
Ability to understand and explain thoughts on AI, its
CO1 applications, KR, WFFs Reasoning mechanisms -
including Uncertainty and the idea of Expert Systems.
Ability to apply AI ideas in various applications,
CO2 manipulation and conversion of WFFs and adopting PO1
Uncertainty Reasoning mechanisms.
Ability to analyze WFFs and manipulating them to
CO3 handle common sense Reasoning mechanisms, Expert PO2
Systems, GA and also machine learning system.

18
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

THEORY OF CONSTRAINTS Course Code:

17IM7DETOC
CO Number Course Outcomes PO Number
Ability to understand and explain concepts of theories
CO1 -
of Constraints
Ability to apply various applications of theory of
CO2 PO1
constraints on various sectors
Ability to analyze different cases of Theory of
CO3 PO2
constraints
Ability to use of modern tools to resolve the issues of
CO4 PO5
theory of constraints

INDUSTRIAL EXPERIMENTATION Course Code:

17IM7DEIEX
CO Number Course Outcomes PO Number
Ability to understand and explain the principles of
CO1 -
analysis of variance and experimental designs
Ability to apply & construct the appropriate PO1,
CO2
experimental design for a particular problem. PO3
Ability to analyze the data & interpret the
CO3 PO2
experimental results

LEAN MANUFACTURING Course Code: 17IM7DELNM

CO Number Course Outcomes PO Number
Ability to understand and explain the concepts of
CO1 -
Lean manufacturing
Ability to apply the Lean manufacturing systems
CO2 PO1
strategies to address its impact
Ability to analyze the tools and techniques of Lean
CO3 PO2
and apply in various manufacturing sector.
Ability to evaluate the contribution achieved by
CO4 PO3
implementing lean in various sectors.
Ability to design the 5S model for various sectors and
CO5 PO3
analyze its effectiveness

MANAGEMENT INFORMATION SYSTEM

Course Code 17IM7DEMIS
CO Number Course Outcomes PO Number
CO1 Ability to understand information systems, business -

19
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

operations, E-business models & EDI

Ability to apply appropriate system analysis and

CO2 design methodologies to enhance existing information PO1
systems and business processes.

CO3 Ability to analyze complex information technologies. PO2

Ability to evaluate technical and managerial skills in

CO4 PO3
information technology.

HUMAN RESOURCE MANAGEMENT

Course Code:17IM7DEHRM
CO Number Course Outcomes PO Number
Ability to understand and explain the concept of
CO1 -
Human Resource Management
Ability to apply the processes related to Human
CO2 PO1
Resource Management.
Ability to analyze the behaviour of individuals with
CO3 respect to legal implication with respect to Industrial PO2
Relations
Ability to demonstrate and communicate effectively in
oral and written forms about personnel interviews, PO9,
CO4
selection placement induction, orientation, training PO10
and development.
CO5 Ability to evaluate- audit, account, record keeping PO5
and monitoring behaviours in organizations
RELIABILITY ENGINEERING
Course Code:17IM7DERLE
CO Number Course Outcomes PO Number
Ability to understand and explain the fundamentals
CO1 -
of reliability
Ability to apply concepts of reliability, availability,
CO2 PO1
maintainability component failure data
Ability to analyze the interference between strength
and stress, or life data for estimating reliability and
CO3 PO2
also strategies for enhancing reliability of components
and systems
Ability to design for maintainability and Availability
CO4 PO3
analysis

Institutional Elective-I
20
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

DATA BASE MANAGEMENT SYSTEM

Course Code :17IM7IEDBMS
CO Number Course Outcomes PO Number
CO1 Ability to understand DBMS architecture, languages,
-
interfaces, data modeling
CO2 Ability to apply relational model concepts, schemas to
PO1
business functions, Hashing
CO3 Ability to evaluate models, ER Diagrams, system
PO3, PO4
implementation, SQL queries and DBMs systems
CO4 Ability to create complex SQL queries, stored
PO3,PO4
procedures

HUMAN RESOURCE MANAGEMENT

Course Code :17IM7IEHRM
PO
CO Number Course Outcomes
Number
Ability to understand and explain the concept of Human
CO1 -
Resource Management
Ability to apply the processes related to Human Resource
CO2 PO1
Management.
Ability to analyze the behaviour of individuals with respect to
CO3 PO2
legal implication with respect to Industrial Relations
Ability to demonstrate and communicate effectively in oral and
PO9,
CO4 written forms about personnel interviews, selection placement
PO10
induction, orientation, training and development.
Ability to evaluate- audit, account, record keeping and
CO5 PO5
monitoring behaviours in organizations

21
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

OPERATIONS RESEARCH
Course Code: 16MD7IEOPR
CO Number Course Outcomes PO Number
Ability to understand the concepts, approaches and
CO1 -
optimization in Operation Research Techniques.
Ability to apply and develop the mathematical skills
CO2 PO2
related to Operation Research Techniques.
Ability to analyze and solve network models arising
CO3 PO3
from a wide range of applications
Ability to evaluate real world problems using
CO4 PO4
Operation Research Techniques.

PRODUCT DESIGN AND DEVELOPMENT

Course Code:17IM7IEPDD
PO
CO Number Course Outcomes
Number
Ability to understand and explain the Product design and
CO1 -
development process.
Ability to apply the concepts of Product design and development
CO2 PO1
process to develop the Engineering products.
Ability to analyze and develop new products using Product design
CO3 PO2
and development concepts.
Ability to listen and comprehend audio/video lectures related to PO10
CO4
product design and development. PO12

AUTOMATION IN MANUFACTURING
Course Code: 17IM7IEAIM
PO
CO Number Course Outcomes
Number
Ability to understand and explain the concepts of automation and
CO1 its different types and to find solutions to the implications of the -
global factors on the society.
Ability to apply the knowledge of automated flow line, storage
CO2 PO1
buffer line (with and without) to solve line balancing problems
Ability to analyze different types of automated guided vehicles,
CO3 PO2
Vehicle guidance and routing, and system management.
Ability to develop part families by the of Group technology
CO4 PO3
concepts, and apply knowledge on CAPP and manage product data.

SIX SIGMA
Course Code: 17IM7IESS

22
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

CO PO
Course Outcomes
Number Number
CO1 Ability to understand and explain the concepts of Six Sigma -

CO2 Ability to apply the knowledge of Six Sigma methods and tools PO1

CO3 Ability to analyze different types Six sigma methods PO2

Ability to demonstrate the design of Experiments through

CO4 PO3
Catapult Experiment

SIMULATION MODELING AND ANALYSIS

Course Code:17IM7IESMA
CO Number Course Outcomes PO Number
Ability to understand and explain the fundamental
CO1 concepts of Simulation and Modeling for Industrial -
Engineering stream.
Ability to apply the concepts and techniques of
CO2 Simulation to formulate and solve Industrial PO1
Engineering problems
Ability to analyze Industrial Engineering Problems and
CO3 PO2
interpret and validate
CO4 Ability to model and Simulate using software PO3
packages to find the solution to complex Engineering
problems
CO5 Ability to create Statistical model using simulation PO5,
package like Arena / Witness and to perform
PO9,
Sensitivity analysis / Post optimal analysis for the
PO10
generated model

8th Semester

ELECTIVE

TECHNOLOGY MANAGEMENT
Course Code 17IM8DETM
CO Number Course Outcomes PO Number
Ability to understand and explain the concepts of
CO1 -
Technology Management
Ability to apply various drivers of Technological Invention
CO2 PO1
and Innovation

23
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Ability to analyze product / process for industrial applications

CO3 PO2
, and is patentability
RETAIL AND SERVICE MANAGEMENT
Course Code:17IM8DERSM
CO Number Course Outcomes PO Number
Ability to understand and explain marketing strategies in
CO1 -
business organizations and academics.
Ability to apply the knowledge of marketing in Retail
CO2 PO1
scenario

Ability to evaluate the cases of the Industry with respect to

CO4 PO3
competitive ability (TCA)

VALUE ENGINEERING
Course Code: 17IM8DEVAE
CO Number Course Outcomes PO Number
Ability to understand and explain concept of Value, value
CO1 -
analysis, value engineering, function.

Ability apply VE techniques to product, processes, systems,

CO2 PO1
components, parts etc.

Ability to analyze value engineering techniques to the real

CO3 PO2
world problems

Ability to design the value added products by value

CO4 PO3
engineering

24
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

Ability to analyze different ways that retailers use

CO3 marketing tools and techniques to interact with their PO2
customers
Ability to design and developing the flow of routes and
CO4 PO3
services in the retail environment
SIX SIGMA
Course Code:17IM8DESS
CO Number Course Outcomes PO Number
CO1 Ability to understand and explain the concepts of Six Sigma -
Ability to apply the knowledge of Six Sigma methods and
CO2 PO1
tools
CO3 Ability to analyze different types Six sigma methods PO2
Ability to demonstrate the design of Experiments through
CO4 PO3
Catapult Experiment

Institutional Elective-II

ENTERPRISE RESOURCE PLANNING

Course Code: 17IM8IEERP

CO Number Course Outcomes PO Number

CO1 Ability to understand and explain business functions and
-
business processes, concepts , importance of ERP

CO2 Ability to Apply concepts to the functional modules of ERP

PO1
software

CO3 Ability to evaluate basics of ERP implementation, Package

PO5
selection, transition strategies, implementation process

CO4 Ability to implement ERP solutions to various business PO3, PO4

functions, through self-study and laboratory exercises.
PO9,PO10

OPERATIONS RESEARCH

Course Code:16MD8IEOPR

25
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

CO Number Course Outcomes PO Number

CO1 Ability to understand the concepts, approaches and
-
optimization in Operation Research Techniques.

CO2 Ability to apply and develop the mathematical skills related

PO2
to Operation Research Techniques.

CO3 Ability to analyze and solve network models arising from a

PO3
wide range of applications

CO4 Ability to evaluate real world problems using Operation

PO4
Research Techniques.

ADVANCED OPERATIONS RESEARCH

Course Code:17IM8IEAOR
CO Number Course Outcomes PO Number
CO1 Ability to understand the concepts, approaches and
-
optimization in Operation Research Techniques.
CO2 Ability to apply and develop the mathematical skills related
PO2
to Operation Research Techniques.
CO3 Ability to analyze and solve network models arising from a
PO3
wide range of applications
CO4 Ability to evaluate real world problems using Operation
PO4
Research Techniques.

MARKETING MANAGEMENT
Course Code:17IM8IEMKM
CO Number Course Outcomes PO Number
CO1 Ability to understand and explain the concepts, principles
-
and functions of Marketing.
CO2 Ability to apply marketing concepts and principles to solve
PO1, PO2
business/corporate marketing problems.
CO3 Ability to analyze strategies which enable decision making
PO2
process.
CO4 Ability to use appropriate models and techniques to the
PO5
study ever-changing environment.

26
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT

CO5 Ability to create the idea into a viable marketing plan. PO5

MANAGEMENT AND ENTREPRENEURSHIP

Course Code:17IM8IEMAE
CO Number Course Outcomes PO Number
CO1 Ability to understand the basic principles and concepts of -
management and Entrepreneurship
CO2 Ability to apply the principles of management and PO1
entrepreneurship.
CO3 Ability to analyze Management issues to solve the problem PO2
to facilitate decision making.
CO4 Ability to formulate and evaluate the feasibility of the project PO3
report

PROJECT MANAGEMENT
Course Code:17IM8DCPM
CO Number Course Outcomes PO Number
Ability to understand and explain the concepts of Project
CO1 -
Management
Ability to apply the knowledge to identify the resources
CO2 needed for each stage, including stakeholders, tools and PO1
supplementary materials.
Ability to analyze and optimize project network considering
factors such as task dependencies, task lengths, leadership
CO3 PO2
styles and organizations structures to successfully complete
a project.
Ability to evaluate the project network to reduce time and
cost by considering factors such as estimated cost, variances
CO4 PO3
and profits and performance evaluation of project and team
members.

27
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
Name of the Programme B.E. in Computer Science and Engineering
Programme Specific Outcomes PSO1. Apply Software Engineering Principles and
(PSOs) Practices to provide software solutions.
PSO2. Design and Develop Network, Mobile and
Web based Computational systems under realistic
constraints
PSO3. Design efficient algorithms and develop
effective code.

Programme Outcomes (POs) PO1 to PO12

PO1- Engineering knowledge: Apply the knowledge
of mathematics, science, engineering fundamentals,
and an engineering specialization to the solution of
complex engineering problems.
PO2- Problem analysis: Identify, formulate, review
research literature, and analyze complex
engineering problems reaching substantiated
conclusions using first principles of mathematics,
natural sciences, and engineering sciences.
PO3- Design/development of solutions: Design
solutions for complex engineering problems and
design system components or processes that meet
the specified needs with appropriate consideration
for the public health and safety, and the cultural,
societal, and environmental considerations.
PO4- Conduct investigations of complex problems:
Use research-based knowledge and research
methods including design of experiments, analysis
and interpretation of data, and synthesis of the
information to provide valid conclusions.
PO5- Modern tool usage: Create, select, and apply
appropriate techniques, resources, and modern
engineering and IT tools including prediction and
modeling to complex engineering activities with an
understanding of the limitations.
PO6- The engineer and society: Apply reasoning
informed by the contextual knowledge to assess
societal, health, safety, legal and cultural issues and
the consequent responsibilities relevant to the
professional engineering practice.
PO7- Environment and sustainability: Understand
the impact of the professional engineering solutions
in societal and environmental contexts, and
demonstrate the knowledge of, and need for
sustainable development.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
PO8- Ethics: Apply ethical principles and commit to
professional ethics and responsibilities and norms of
the engineering practice.
PO9- Individual and team work: Function effectively
as an individual, and as a member or leader in
diverse teams, and in multidisciplinary settings.
PO10- Communication: Communicate effectively on
complex engineering activities with the engineering
community and with society at large, such as, being
able to comprehend and write effective reports and
design documentation, make effective
presentations, and give and receive clear
instructions.
PO11- Project management and finance:
Demonstrate knowledge and understanding of the
engineering and management principles and apply
these to one’s own work, as a member and leader in
a team, to manage projects and in multidisciplinary
environments.
PO12- Life-long learning: Recognize the need for,
and have the preparation and ability to engage in
independent and life-long learning in the broadest
context of technological change.
Course Outcomes (COs) 3RD SEMESTER

Computer Organization and Architecture-

15CS3DCCOA
 CO1- Ability to apply the concepts of basic
functional units to demonstrate the working
of computational system
 CO2- Ability to analyze the design issues in
the development of processor and other
components to articulate improvement in
computer design
 CO3- Ability to design memory modules
and Arithmetic Logic unit by analyzing
performance issues

Web Programming-15CS3DCWEP
 CO1- Ability to apply the knowledge of front-
end and back-end web technologies for the
given requirement
 CO2- Ability to analyze the given web
program to identify bugs and to write correct
code.
 CO3- Ability to design web applications for
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
the given specifications.
 CO4- Ability to conduct practical experiments
for demonstrating the features of web
applications using MySQL and Apache web
server.
 CO5- Ability to develop a project using web
technologies to solve societal problems.

Data Structures-15CS3DCDST
 CO1- Ability to apply knowledge of choosing
an appropriate data structure for given
problem requirement
 CO2- Ability to design various operations on
linear and non-linear data structures for
specified problem definition
 CO3- Ability to analyze searching and sorting
techniques for effective management of data
 CO4-Ability to conduct practical experiments
for demonstrating the operations of different
data structures and sorting techniques.

Programming with C++ -16CS5DCPCP

 CO1-Ability to apply various features of
object oriented programming paradigm
 CO2- Ability to analyze a given c++
program to identify bugs and write the
appropriate code.
 CO3- Ability to implement solution for a
given scenario using appropriate OOP
concepts.
 CO4-Ability to conduct practical
experiments for demonstrating the features
of OOP concepts.
 CO5- Ability to develop a project by
applying OOP concepts to solve a given real
world problem.

4TH SEMESTER

Database Management Systems-15CS4DCDBM

 CO1- Ability to apply the concepts of
database management system for various
applications.
 CO2- Ability to analyse the given database
concepts to its correctness.
 CO3- Ability to design and demonstrate
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
conceptual models, query and optimization.
 CO4- Ability to conduct experiments to
demonstrate the various SQL query
processing and to develop the front end
using Microsoft visual studio.
 CO5- Ability to perform in a team to design
and develop DBMS applications that
addresses various real world problems.

Data Communication-15CS4DCDCM
 CO1- Ability to apply the functionalities of
physical and data link layers for network
applications.
 CO2- Ability to analyze various mechanisms
associated with physical and data link layers
and the relevant protocols.
 CO3- Ability to develop programs that
demonstrate the functionalities of physical
and data link layers.

OOPS WITH JAVA-15CS4DCOOJ

 CO1- Apply knowledge of java constructs for
developing different programs/applications.
 CO2- Analyse the given java program to
identify bugs and to write correct code.
 CO3- Design java program/ applications for
a given requirement.
 CO4- Conduct practical experiments for
demonstrating features of java using eclipse.
 CO5- Develop a project using java for real
world applications.

Operating Systems-15CS4DCOPS
 CO1-Ability to Apply Various Process
Scheduling Algorithms, Disk Scheduling
algorithms, Page replacement algorithms and
Deadlock detection and avoidance techniques
for providing Operating System
functionalities
 CO2- Ability to Analyse various process
management concepts (including scheduling,
synchronization, deadlocks), Memory
Management strategies and Design
considerations of file system.
 CO3- Ability to Demonstrate and present
features of Linux Operating System.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING

5th SEMESTER

ANALYSIS AND DESIGN OF ALGORITHMS-

16CS5DCADA
 CO1- Ability to analyze time complexity of
Recursive and Non-recursive algorithms
using asymptotic notations.
 CO2- Ability to design efficient algorithms
using various design techniques.
 CO3- Ability to apply the knowledge of
complexity classes P, NP, and NP-Complete
and prove certain problems are NP-Complete
 CO4- Ability to conduct practical
experiments to solve problems using an
appropriate designing method and find time
efficiency.
Software Engineering-16CS5DCSWE
 CO1- Ability to apply Software Engineering
Design Techniques and practices for
developing Software.
 CO2- Ability to analyze the various
requirements, design and Testing
Techniques to select the appropriate
techniques for the software system.
 CO3- Ability to Design Models for different
phases of software development to solve
real world problems.
 CO4- Ability to Manage Projects by
Estimating cost and time required for
developing the Software Product.
Computer Networks-16CS5DCCON
 CO1- Ability to apply conceptual and
implementation aspects for network
applications.
 CO2- Ability to analyse the various protocols
in network, transport and application layers
and their mechanisms.
 CO3- Ability to design functional aspects for
network applications.
 CO4- Ability to develop programs that
demonstrate the operations of network,
transport and application layers
Internet of Things-15CS5DCIOT
 CO1- Ability to apply various protocols,
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
device discovery and cloud services in
resource constraint network for IoT
applications
 CO2- Ability to analyse the various IoT
architectural components.
 CO3- Ability to develop IOT systems using
with Arduino development board by
interfacing sensors, communication modules
and actuators
 CO4- Ability to conduct experiments to
demonstrate the working of sensors,
actuators, communication modules using
Arduino IDE.
 CO5- Ability to perform in a team to design
and develop IoT applications that address
various real time problems.

Programming in Python-15CS5DEPIP
 CO1- Ability to apply the knowledge of
Python programming to develop different
applications.
 CO2- Ability to analyze the given python
program to identify bugs and to rectify it.
 CO3- Ability to design GUI and Graphics
applications for a given requirement using
python programming.
 CO4- Ability to conduct practical
experiments for given requirements using
python.
 CO5- Ability to develop a project using
python for a given requirement and make
effective Oral Presentation and
documentation.

6th SEMESTER

Theoretical Foundations of Computation-

16CS6DCTFC
 CO1- Able to Apply the knowledge of
Automata Theory, Grammars & Regular
Expressions for solving the Problem.
 CO2-Ability to analyze the given Automata,
Regular Expression & Grammar to know the
Language it represents.
 CO3- Design Automata & Grammar for
pattern recognition and syntax checking.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
Object Oriented Modeling and Design-
16CS6DCOOM
 CO1- Ability to apply the knowledge of class,
State & Interaction Modeling using Unified
Modeling Language to solve a given
problem.
 CO2- Ability to analyze a System for a given
requirement using Unified Modeling
language.
 CO3- Ability to design a given system using
high level strategy.
 CO4- Ability to conduct practical experiment
to solve a given problem using Unified
Modeling language.

Mobile Application Development-15CS6DCMAD

 CO1- Ability to apply knowledge of mobile
app development using android packages
and resources for different applications.
 CO2- Ability to analyze the given android
program to identify bugs and to write correct
code.
 CO3- Ability to design android mobile
applications for a given requirement.
 CO4- Ability to conduct practical
experiments for demonstrating features of
mobile applications using android studio
platform
 CO5- Ability to develop a project using
android studio platform to solve societal
problems.
Cryptography and Network Security-
15CS6DECNS
 CO1- Ability to apply knowledge of number
theory and cryptography to demonstrate the
techniques for data security
 CO2- Ability to analyze the encryption
algorithms for their strengths and
weaknesses
 CO3- Ability to design and implement basic
algorithms in cryptography

Software Project Management and Finance-

16CS6HSHS1
 CO1- Ability to identify and apply Software
Project management concepts for software
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
development.
 CO2- Ability to analyze and estimate the
Scope, cost and outline the project plan.
 CO3- Ability to develop project planning
using Gantt chart and identify issues with
project life cycle.

Cloud Computing-16CS6DECCT
 CO1- Ability to apply the knowledge of cloud
technology to demonstrate the working
principles of cloud
 CO2- Ability to analyse cloud services
extended by various cloud providers to build
a cloud
 CO3- Ability to conduct practical
experiments for demonstrating the features
of cloud computing services
 CO4- Ability to explore cloud simulator and
come up with a new resource sharing
module for various requirements

Fuzzy Logic and Neural Networks-

16CS6DEFLN
 CO1- Ability to apply concepts of Neural
Networks and Fuzzy logic for learning and
knowledge representation.
 CO2- Ability to analyzeneural networks
and fuzzy systems
 CO3- Ability to make effective Oral
presentation on current trends in Neural
Networks and Fuzzy logic.

Artificial Intelligence Course Code:

16CS6DCAIN
 CO1- Ability to apply knowledge of agent
architecture, searching and learning
techniques for different applications.
 CO2- Ability to analyze Inference and
Learning Techniques.
 CO3- Ability to design a reasoning system
for a given requirement.
 CO4- Ability to conduct practical
experiments for demonstrating agents,
searching and inferencing.
 CO5- Ability to develop a project using
Artificial Intelligence techniques to solve real
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
world problems.

7th SEMESTER

Data Science Using R-16CS7DEDSC

 CO1- Ability to apply the Concepts of R
programming for a given Requirement
 CO2- Ability to analyse the given data
using data analytic Technique.
 CO3- Ability to Conduct Practical
experiments for the demonstration of data
analytic techniques Using R
 CO4- Ability to design and develop data
science project using R for real world
applications.
Distributed Operating System -16CS7CEDOS
 CO1-Ability to Apply the knowledge of
memory management, Communication,
process and file management of Distributed
operating system Functionalities.
 CO2-Ability to Analyze memory
management, communication, process and
file management of Distributed Operating
System Functionalities.
 CO3-Ability to present case study on
current Distributed operating system
Functionalities.

Probability, Statistics and Queuing-

16CS7DCPSQ
 CO1- Ability to apply knowledge of
probability, random variables and queuing
theory to find probabilities of events.
 CO2- Ability to analyze data distributions
through statistical inference and performance
of queuing systems.
 CO3- Ability to design solutions to problems
with the knowledge of probability, random
variables and queuing theory.

Big Data Analytics-15CS7DEBDA

 CO1- Ability to apply the concepts of Big

data, characteristics, data models and
Cluster File System using Spark
 CO2- Ability to analyse the architectural
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
elements of big data and hadoop framework
 CO3- Ability to design NoSQL structures like
MongoDB, Cassandra, Pig and Hive for
processing and aggregating logs in the
database.
 CO4- Ability to demonstrate the usage of
MongoDB and Cassandra database models
for big data along with experiment
conduction using HDFS and Map Reduce
 CO5- Ability to design and implement big
data analytics for real time dataset available
on big data application
 CO6- Ability to make an effective oral
presentation and documentation on the data
analytics implemented

Professional Ethics for Engineers-16CS7HSHS2

 CO1- Ability to apply the knowledge of
professional ethics required to be followed in
different organisation structures.
 CO2- Ability to analyse and address ethical
problems arising from various case studies.
 CO3- Ability to resolve moral and ethical
issues concerning environment and society.

Software Quality Metrics-16CS7CESQM

 CO1- Ability to apply software metrics and
measurements to the internal and external
attributes of software product to assess
software quality
 CO2- Ability to analyse and predict the
quality of the software using Software quality
metrics and models
 CO3- Ability to evaluate the quality of the
software system using metrics tools

Project Phase1-16CS7DCPP1
 CO1- Ability to identify a real
life/engineering problem, utilize prior
knowledge and conduct extensive
investigation, across diverse sources, in
addressing the
 CO2- Competence in applying the software
engineering principles in planning,
formulating an innovative design/ approach
and computing the requirements
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
 CO3- Ability to plan, monitor, and manage
project schedule, resources, and work
assignments to ensure timely completion
 CO4- Perform professionally—as a team
member, accepting responsibility, taking
initiative, and providing leadership necessary
to ensure project success.
 CO5- Ability to use formal and informal
communications with team members and
guide, make presentations and prepare
technical document.
 CO6- Ability to provide solution within the
context of legal framework addressing the
societal and environmental concerns and
upholding ethical issues.

8th SEMESTER

Management and Entrepreneurship-

17CS8HSMAE
 CO1- Ability to apply Engineering knowledge
to effectively exhibit managerial skills at
different levels of management in a global
context
 CO2- Ability to demonstrate the critical
awareness of the principles and importance
of entrepreneurship
 CO3- Ability to Examine the process of
creating and managing a new business
venture and prepare a business plan for any
identified business problem

GREEN COMPUTING -16CS8DCGCT

 CO1- Ability to apply knowledge of
fundamentals of Green Computing for
various Business Assets
 CO2- Analyse various strategies that can
reduce the environmental impact of usage of
computers to make business more energy
efficient and green compliant.
 CO3- Demonstrate/Conduct investigation on
Novel Green Computing Frameworks for
various Business assets
 CO4- Ability to make effective Oral
presentation on various Green IT strategies
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
Internship/Technical Seminar-16CS8DCINT
 CO1- Ability to apply domain knowledge
during the course of internship
 CO2- Ability to develop/implement the
solutions with appropriate techniques,
resources and contemporary tools.
 CO3- Ability to work independently and in a
collaboration/multidisciplinary environment
 CO4- Ability to allocate time effectively and
manage to complete the work allotted within
appropriate time
 CO5- Ability to exhibit integrity and ethical
behavior while carrying out the internship
and for the preparation of internship report
 CO6- Ability to demonstrate effective oral
and written communication skills

Project Phase 2-16CS8DCPP2

 CO1- Ability to apply the software
engineering principles in planning,
formulating an innovative design/ approach
and computing the requirements appropriate
to chosen topic within the context of legal,
societal and environment constraint.
 CO2-Ability to apply the concepts of
mathematics, science and engineering to
implement the project and draw conclusions
out of the results, while exhibiting integrity
and ethical behavior in engineering practice
 CO3- Ability to monitor, manage project
schedules, resources and work assignments
to ensure timely completion.
 CO4- Ability to test and defend performance
of the implemented project and understand
the implication of the solution.
 CO5- Ability to perform individually as well
as in a team, accepting responsibility, taking
initiative, and providing leadership,
necessary to ensure project success.
 CO6- Ability to use formal and informal
communications with team members and
guide, make presentations and prepare
technical document.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING

Name of the Programme MTech in Computer Science and Engineering

Programme Educational PEO1: Able to excel professionally by adapting to
Objectives (PEOs) the dynamic needs of Industry, Academia and
Research in the field of Computer Science and
Engineering.

PEO2: Able to practice and promote computing

technologies for societal needs.

PEO3: Able to contribute to advancement of

computer technology by means of research and
lifelong learning.

Programme Outcomes (POs) PO1- An ability to independently carry out Research

/ Investigation and development work to solve
practical problems
PO2- An ability to write and present a substantial
technical Report / Document
PO3- An ability to demonstrate mastery in the area
of Computer Science and Engineering, at a level
higher than under graduate program in Computer
Science and Engineering.

Course Outcomes (COs) 1st SEMESTER

Mathematical Foundation of CS-18CSCSBSMF

 CO1- Independently carry out study of
Recent Trends in distribution functions and
present results for computing problem or
application
 CO2- Conduct experiments to arrive at
expected outcome for given application using
statistical techniques
 CO3- Demonstrate In-depth knowledge in
Mathematical /statistical theories
Advanced Data Structures-18CSCSPCAD
 CO1- Define and explain concepts related to
data structure.
 CO2- Investigating Data Structure/Trees of a
Data Structure Problem
 CO3- Apply the data structure algorithm and
tree to solve complex problem.
 CO4- Analyse different algorithms/trees in
data structure.
 CO5- Conducting experiments of data
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
structure concepts using modern
tool/simulation.
Soft Computing-18CSCSPCSC
 CO1- Review and make effective oral
presentation on current trends and prepare a
report on Soft Computing techniques.
 CO2- Conduct experiments to arrive at
expected outcome for given application using
soft computing techniques.
 CO3- Demonstrate In-depth knowledge in
soft computing by performing mathematical
analysis.
Machine Learning-18CSCSPEML
 CO1- Demonstrate scholarship of knowledge
in the application/analysis of Machine
Learning algorithms to solve various types of
learning tasks
 CO2- Implement Machine Learning
Techniques and present a technical
report/document.
 CO3- Carry out research/Investigation for a
given Machine Learning Technique
Cloud Computing-18CSCSPECC
 CO1- Present and document current trends
and issues in Cloud Computing technology.
 CO2- Apply the knowledge of cloud
technology to demonstrate the working
principles of cloud for different application.
 CO3- Analyse concept of cloud computing
technology in usage of various application.
 CO4- Conduct practical experiments for
demonstrating cloud computing technology.
 CO5- Understand the concepts of cloud
computing technology for different
application.
Research Methodology and IPR-18ALLPICRM
 CO1- Write and present a substantial
technical report/document
 CO2- Demonstrate a degree of mastery over
the area of specialization

2nd SEMESTER

Advanced Computer Networks-18CSCSPCAC

 CO1- Develop technical report for advance
topics in networking.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
 CO2- Apply and analyse various network
protocols, congestion control mechanism and
network security algorithms / protocols.
 CO3- Implement and demonstrate routing
and congestion control algorithms / methods.
Advanced Algorithms-18CSCSPCAA
 CO1- Apply algorithms to solve problems in
graph theory and string matching algorithms
 CO2- Analyze time complexity of algorithms
 CO3- Design and implement FFT algorithms

Agile Technology-18CSCSPCAT
 CO1- Engage in independent study to
prepare a Technical document to address
current trends in Agile technology
 CO2- Demonstrate In-depth knowledge in
Agile technologies/theories/ practices
 CO3- Demonstrate scholarship of knowledge
to provide critical analysis of agile
technologies
Internet Of Things-18CSCSPEIO
 CO1- Oral presentation of IoT applications
and analytics of the result obtained
 CO2- Perform triggering of Raspberry PI-
interfaces with gadgets using Python
 CO3- Demonstration of how mobile devices
can be sink with IoT devices for certain
applications
 CO4- Experiment on how IoT data can be
moved to cloud for analytics purpose
 CO5- Understand the concepts on how IoT
has its impact on present real time situation.
Deep Learning-18CSCSPEDL
 CO1- Demonstrate scholarship of knowledge
in the application/analysis of Deep Learning
algorithms to solve various types of learning
tasks, NLP and Computer Vision tasks
 CO2- Implement Deep Learning Techniques
and present a technical report/document.
 CO3- Independently work for a given
problem so as to find the applicability of the
Deep learning techniques
Artificial Intelligence-18CSCSOEAI
 CO1- Demonstrate the understandability of
Artificial intelligence concept and develop
technical reports
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
 CO2- Analyze the modern view of AI as the
study of agents and investigate various AI
search Models and Generic search strategies.
 CO3- Design Logics for representing
Knowledge and learning algorithms for
improving the performance of AI systems.

3rd SEMESTER

Internship-16CSCSPCIN
 CO1- Ability to Apply domain knowledge in
proposing solution for IT problem
 CO2- Ability to develop/implement the
design with appropriate techniques,
resources and contemporary tools and
deliver solution with stipulated planning
 CO3- Ability to work independently.
 CO4- Ability to work in
collaboration/multidisciplinary environment.
 CO5- Ability to exhibit integrity and ethical
behavior during preparation of Technical
document/Report/ development of solution
 CO6-Ability to use formal and informal
communications with guide, make
presentations and prepare technical
document

Project Work- Phase-I-16CSCSPCP1

CO1: Engage in independent study to research

through literature and consolidate and comprehend
to formulate the Engineering problem to offer
solution to societal/environmental/ IT industry
problem.

CO2: Identify the necessary Engineering concepts,

Technology, algorithms and modern tools to solve
the problem.
CO3: Develop requirements and apply the identified
concepts to design solution for a set of requirements
CO4: Prepare Gantt chart / estimate cost of project/
Analysis of project based on various parameters and
resources (Power, Bandwidth, Time Complexity)

4th SEMESTER
Project work- Phase-II and III-16CSCSPCP2
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING

CO5: Implement algorithms, and/or techniques that

contribute to the software solution of the project
using identified tools.
CO6: Demonstrate the standards/norms/ethical
practices during implementing the solution
CO7: Analyse and interpret experimental
results/Test and validate the conformance of the
developed prototype against the original
requirements of the problem and exhibiting integrity
and ethical behavior in engineering practice.
CO8: engage in effective communication through
presentation of project work, prepare technical
reports, Poster document and paper publication

Technical Seminar-16CSCSPCTS
CO1- conduct literature surveyand identify
topic/concepts.
CO2- analyze methodology/technique or algorithm.
CO3- analyze different case studies/senarios/tools
in the selected concept.
CO4- communicate and prepare
documentation/reports effectively.
CO5- exhibit reflective learning and work
independently
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

Name of the Programme B.E. in Telecommunication Engineering

Programme Specific Outcomes 1. Build Electronic Systems: formulate the problem,
(PSOs) design, implement, analyze and demonstrate a feasible
solution to the problem, using suitable electronic
components
2. Build Telecommunication Systems: design,
implement, analyze and demonstrate the
telecommunication system to receive and(or) transmit
signals through the specified channel
3. Simulate Systems: develop, test, analyze and
demonstrate algorithms to simulate Electronic systems/
Telecommunication systems/ Networking protocols using
the specified Engineering Tool
Programme Outcomes (POs) PO1 to PO12
PO1: Engineering Knowledge: Apply the knowledge
of mathematics, science, engineering fundamentals,
and an engineering specialization to the solution of
complex engineering problems.
PO2: Problem analysis: Identify, formulate, research
literature, and analyze complex engineering problems
reaching substantiated conclusions using first principles
of mathematics, natural sciences, and engineering
sciences.
PO3: Design/development of solutions: Design
solutions for complex engineering problems and design
system components or processes that meet the specified
needs with appropriate consideration for the public
health and safety, and the cultural, societal, and
environmental considerations.
PO4: Conduct investigations of complex
problems: Use research-based knowledge and
research methods including design of experiments,
analysis and interpretation of data, and synthesis of
the information to provide valid conclusions.
PO5: Modern Tool Usage :Create, select, and apply
appropriate techniques, resources, and modern
engineering and IT tools including prediction and
modelling to complex
engineering activities with an understanding of the
limitations
PO6: The Engineer and Society: Apply reasoning
informed by the contextual knowledge to assess societal,
health, safety, legal, and cultural issues and the
consequent responsibilities relevant to the professional
engineering practice.
PO7: Environment and Sustainability: Understand
the impact of the professional engineering solutions in
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

societal and environmental contexts, and

demonstrate the knowledge of need for sustainable
development.
PO8: Ethics: Apply ethical principles and commit to
professional ethics and responsibilities and norms of the
engineering practice.
PO9: Individual and Team Work: Function effectively
as an individual, and as a member or leader in diverse
teams, and in multidisciplinary settings.
PO10: Communication: Communicate effectively on
complex engineering activities with the engineering
community and with society at large, such as, being
able to comprehend and write effective reports and
design documentation, make effective presentations,
and give and receive clear instructions.
PO11: Project Management and Finance:
Demonstrate knowledge and understanding of the
engineering and management principles and apply these
to one’s own work, as a member and leader in a team, to
manage projects and in multidisciplinary environments.
PO12: Life-long learning: Recognize the need for, and
have the preparation and ability to engage in
independent and life-long learning in the broadest
context of technological change
Course Outcomes (COs)
Course Outcome: Linear Circuit Analysis
CO1: Ability to understand, define and explain the
concepts of loop and node analysis, network topology and
resonant circuits
CO2:Ability to apply the knowledge of Network
theorems, Laplace transformation and state -space
analysis to two port networks to obtain desired
parameters
CO3: Ability to analyze two port networks
CO4: Ability to Conduct Experiments to comprehend
and analyze networks and theorems
CO5: Ability to Effective oral Presentation on E-Waste
norms, hazards of e-waste, effect on environment
Course Outcome: Analog Microelectronics
CO1: Ability to define, understand and explain
concept related to diodes and Transistors (BJTs,
MOSFETs)
CO2: Ability to apply the knowledge of network
theorems to analog electronic circuits
CO3: Ability to analyze given analog electronic circuits
to compute required parameters
CO4: Ability to design analog electronic circuits for
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

given application
CO5: Ability to conduct Investigations to validate the
data sheet of a given electronic component
CO6: Ability to conduct experiments to demonstrate an
application of analog electronics using components /
multisim
CO7: Ability to perform in a team to implement an open-
ended experiment
Course Outcome: Digital Electronics
CO1: Ability to understand, define and explain the
fundamental concepts of Digital Circuits.
CO2: Ability to apply the knowledge of simplification
method to optimize a digital circuit
CO3: Ability to analyze digital circuits and arrive at
suitable conclusions.
CO4: Ability to design a digital circuit for given
specifications.
CO5: Ability to conduct experiments using digital ICs
for a given application / problem statement.
CO6: Ability to conduct investigations to validate a
given IC
CO7: Ability to perform in a team to implement an open-
ended experiment
Course Outcome: Fields and Waves
CO1: Ability to define, understand, and explain
concepts on electrostatics and Magnetostatics, Time
varying fields and Maxwell’s equations, wave propagation
in different media, concepts on reflection and dispersion
of plane waves
CO2: Ability to apply various properties/ laws/theorems/
Maxwell’s equations of electrostatics, Magnetostatics to
solve/derive examples in different media of time varying
fields and uniform plane waves.
CO3:Ability to analyze the given specifications of static
and time varying Electric, Magnetic fields, uniform plane
waves in various configurations/ distributions
CO4: Ability to effective oral presentation on
Electromagnetic transmission norms, radiation hazards,
effect on environment.
CO5: Ability to listen and comprehend audio/video
lectures related to electromagnetic fields and waves
Course Outcome: Simulation Laboratory - I
CO1: Ability to Understand, basic programming concepts
of the engineering tools Multisim.
CO2: Ability to develop Multisim Code to simulate
concepts related to analog electronics two port electronic
networks, electronic instruments.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

CO3: Ability to obtain specified parameter of the

developed electronic circuit (analog / digital).
CO4: Ability to interpret and compare simulation results
with that of the corresponding physical realization of the
electronic circuit (analog / digital).
CO5: Ability to formulate, implement and
demonstrate an application of electronic circuits through
an open-ended experiment.
Course Outcome: Continuous Time Signal
Processing
CO1: Ability to define, understand, and explain
continuous time signals, systems, their time and
frequency domain representation, equalizers, ideal and
physically realizable filters
CO2: Ability to classify signals and systems, obtain the
output for LTI systems using the time domain and the
frequency domain representation, obtain the frequency
domain representation for continuous time signals, obtain
the transfer function, pole-zero plot of the Butterworth
filters
CO3: Ability to analyze the given specifications for
physical realizability, stability, analyze the designed
system (compare with the desired specifications),
analyze systems
CO4: Ability to design equalizers for a given system,
design filters for given specifications
CO5: Ability to conduct experiments on concepts
related analog signals, systems, system classification,
design of analog filters, time and frequency domain
representation using the engineering tool:
Matlab/Multisim
CO6: Ability to make an effective oral presentation on
contribution of signal processing to society,
communication protocols, effect on environment
Course Outcome: Analog Integrated Circuits
CO1: Ability to define, understand and explain
concepts related to Operational amplifiers, timers and
regulators
CO2: Ability to apply the knowledge of network
theorems to analog integrated circuits
CO3: Ability to analyze given analog electronic circuits
to compute required parameters
CO4: Ability to design analog electronic circuits for
given application
CO5: Ability to conduct investigations to validate a
given electronic integrated circuit
CO6: Ability to conduct experiments to demonstrate
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

an application of analog integrated circuits using

components or the simulation tool (Multisim)
CO7: Ability to perform in a team to implement a mini-
project
Course Outcome: Microcontrollers
CO1: Ability to understand and explain architecture,
pipelining, addressing modes, data types in Embedded C,
serial communication, timer configuration and interrupt
handling of microcontroller
CO2: Ability to calculate instruction execution time,
delay, baud rate, and write assembly and C Code,
identify the timer mode, serial
communication mode and interrupt priorities
CO3: Ability to debug/analyze the code in assembly as
well as Embedded C
CO4: Ability to develop the code in assembly as well as
Embedded C for a given application
CO5: Ability to identify the IDE to conduct
experiments by simulating, interfacing, debugging and
executing the assembly and Embedded C code
CO6: Ability to formulate and implement an application
of microcontroller through a Mini- project using the
controller or a simulation tool
Course Outcome: Fundamentals of HDL
CO1: Ability to understand, define and explain the
fundamental concepts of VHDL and VERILOG for
modeling Digital circuits
CO2: Ability to apply the knowledge of Digital Electronics
fundamentals to describe the VHDL and VERILOG
behaviour of a digital circuit using data flow, Behavioral
and structural modelling
CO3: Ability to analyse the given specifications for a
digital circuit to describe the behaviour in VHDL and
VERILOG
CO4: Ability to design a digital circuit through VHDL and
VERILOG for given specifications
CO5: Ability to synthesize a digital circuit for given
VHDL and VERILOG behaviour
CO6: Ability to conduct experiments using modern
engineering CAD tool to: (i) perform simulation (ii)
perform synthesis (iii) Implement using FPGA kit, for a
given digital circuit
Course Outcome: Simulation Laboratory - II
CO1: Ability to understand basic programming concepts
of the engineering tools Matlab
CO2: Ability to develop Matlab code to implement
mathematical concepts like integration, differentiation,
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

solution to linear equation, mean, roots of equation,

statistical parameters
CO3: Ability to obtain the pole-zero plot, frequency
response, of a given system, and to obtain the frequency
domain representation of a given signal using Matlab
CO4: Ability to test and classify a given LTI system
using the simulation tool Multisim
CO5: Ability to obtain the step response and impulse
response of the given LTI system
CO6: Ability to analyze the given LTI system for
specified parameters
CO7: Ability to design, implement and validate
analog Butterworth filters to meet the specifications
Course Outcome: Discrete Time Signal Processing
CO1: Ability to define, understand and explain
concepts related to discrete time signals and systems.
CO2: Ability to apply the knowledge of signal processing
to obtain the time and frequency domain representation
of linear discrete time signals and systems (LTI).
CO3: Ability to analyze the given LTI system for stability,
and realiability.
CO4: Ability to design discrete LTI systems to meet given
specifications.
CO5: Ability to conduct experiments to demonstrate
concepts related to discrete LTI systems using the
engineering tool: Matlab.
CO6: Ability to conduct experiments to demonstrate
concepts related to discrete LTI systems using the Digital
Signal Processors.
CO7: Ability to design, formulate, implement and
demonstrate an application of discrete time system
concepts through an Open-Ended experiment for an
audio/image/video/data signal.
Course Outcome: Analog Communication
CO1: Ability to define, understand and explain
concepts of convolution, correlation, random variables,
time and frequency domain representation of analog
communication systems.
CO2: Ability to apply the knowledge of signal processing
to obtain the time and frequency domain representation,
Figure of Merit of analog communication systems.
CO3: Ability to analyze the waveforms related to analog
communication.
CO4: Ability to design analog communication systems to
meet given specification.
CO5: Ability to conduct experiments to demonstrate
concepts related to analog communication using suitable
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

electronic components/Engineering Tool (Matlab).

CO6: Ability to make an effective oral presentation on
broadcast standards, contribution to society, impact on
health, effect on environment.
CO7: Ability to perform in a team to build an AM/FM
receiver using discrete components and simulation tool
(Matlab)
Course Outcome: Computer Communication
Networks-I
CO1: Ability to define, understand and explain
concepts related to Telecommunication Networks.
CO2: Ability to apply the knowledge of engineering
fundamentals to obtain the traffic parameters (Grade of
Service, Blocking probability, congestion) of the network.
CO3: Ability to analyze the given network parameters.
CO4: Ability to design a switching network to meet
given specifications.
CO5: Ability to conduct experiments to demonstrate
concepts related to telecommunication networks using the
Engineering Tool MATLAB.
CO6: Ability to perform in a team to prepare
a report and make an effective oral presentation of the
study on topics related to Networks protocols, effect on
environment, contribution to society.
Course Outcome: Fundamentals of CMOS VLSI
CO1: Ability to define, understand and explain
concepts of nMOS and CMOS technology.
CO2: Ability to apply the knowledge of VLSI to fabricate
the MOS circuits, illustrate different CMOS logic
structures, subsystems and memory elements, calculate
rise time and fall time estimations.
CO3: Ability to analyze the monochrome layout and
stick diagrams of MOS technology and CMOS logic
structures and subsystems, deduce appropriate
testability vectors for the given parameters.
CO4: Ability to conduct experiments using VLSI tools
for a given application/problem statement.
CO5: Ability to listen and comprehend audio/video
lectures related to VLSI concepts.
Course Outcome: Linear Control Systems
CO1: Ability to define, understand and explain
concepts related to linear control systems.
CO2: Ability to apply the knowledge of signal processing
o obtain the Bode plot, Nyquist plot, Polar Plot, Root
locus, state-space representation of the given system.
CO3: Ability to analyze the given linear control system
for realizability and stability.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

CO4: Ability to design controllers to meet desired

specifications using time and frequency domain
representation.
CO5: Ability to conduct experiments to demonstrate
concepts related to linear control systems using the
engineering tool: MATLAB/LabVIEW.
Course Outcome: Digital System Design
CO1: Ability to understand, define the concepts and
advanced features of VHDL to design a digital circuit
CO2: Ability to apply PLD concept to design a digital
system
CO3: Ability to design a digital system for arithmetic
operations
CO4: Ability to realize and analyze digital circuits
using SM charts
CO5: Ability to conduct experiments to simulate,
synthesize and implement digital systems using
industry standard CAD tools
Course Outcome: Operating Systems
CO1: Ability to understand and explain the structures
of operating systems, file-system, inter-process
communication and memory management.
CO2: Ability to identify different scheduling policies and
threads for process operations.
CO3: Ability to analyze and obtain solution for prevention
and avoidance of deadlock in system.
CO4: Ability to conduct experiments on scheduling,
memory management, file system using C/Unix
Course Outcome: Simulation Laboratory - III
CO1: Ability to understand basic programming concepts
of the engineering tool Simulink, Multisim.
CO2: Ability to develop Simulink code to implement
basic mathematical concepts, signal processing concepts.
CO3: Ability to obtain the pole-zero plot, frequency
response, transient response of a given system and hence
classify the system.
CO4: Ability to design, implement and Validate the
VLSI circuits using Multisim Tool.
CO5: Ability to implement and analyze the given OS /
VHDL system for specified parameters.
CO6: Ability to perform in a team to develop a tool-box
using Matlab for a course (Mathematics/control systems/
Signal processing / Analog Communication)
CO7: Ability to perform in a team to develop the Analog
Communication Link using Simulink.
Course Outcome: Digital Communication
CO1: Ability to define, understand and explain
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

concepts related to digital communication

CO2: Ability to apply the knowledge of mathematics and
signal processing to various blocks of the digital
communication system
CO3: Ability to analyze the given block/waveform of the
digital communication system
CO4: Ability to conduct experiments to demonstrate
concepts related to digital communication using discrete
electronic components
CO5: Ability to conduct experiments to demonstrate
concepts related to digital communication using the
engineering tool: LabVIEW
CO6: Ability to perform in a team to build the complete
digital communication system for transmitting
audio/data/image and obtain the performance parameters
(using discrete components or an engineering tool)
Course Outcome: Transmission Lines and Antennas
CO1: Ability to define, understand, and explain
concepts of transmission lines involving primary and
secondary constants ,Time varying fields to obtain the
radiation pattern and related parameters of different
antennas
CO2: Ability to apply various properties/laws/theorems/
to solve/derive transmission line problems and obtain
parameters of different antennas.
CO3: Ability to analyze the given specifications of
different types of transmission lines and antennas in
various configurations/ distributions.
CO4: Ability to design solutions to meet the given
specifications of transmission lines and antennas.
CO5: Ability to conduct experiments to design and
analyze concepts related to transmission lines and
antennas using HFSS
CO6: Ability to perform in a team to prepare a report
and make an effective oral presentation of the study
on topics related to antenna applications/ radiation
hazards/ transmission lines/ broadcast standards/ EMC-
EMI/ any other
Course Outcome: Computer Communication
Networks – II
CO1: Ability to define, understand and explain
concepts related to network, transport and application
layer
CO2: Ability to apply the knowledge of communication
and coding to telecommunication networks
CO3: Ability to analyze the given network systems
parameters
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

CO4: Ability to conduct experiments to demonstrate

networking concepts using the engineering tool: Qualnet /
Matlab
CO5: Ability to perform in a team to prepare a report
and make an effective oral presentation of the study
on application of communication protocols to Railways/
Landing Systems/ Power Systems/ Automotives/
Positioning Systems / any other
Course Outcome: Information Theory and Coding
CO1: Ability to define, understand and explain
concepts related to information theory and coding
CO2: Ability to apply the knowledge of probability and
source encoding algorithms to obtain the information of
analog and discrete message sources
CO3: Ability to analyze Convolution codec
CO4: Ability to design the Block and Convolution codes
for a given channel
CO5: Ability to conduct experiments to demonstrate
concepts related to information theory and coding using
the engineering tool: LabVIEW/ Matlab
CO6: Ability design, formulate, implement and
demonstrate an application of coding theory through an
Open-Ended experiment for transmission of audio/data
signal using LabVIEW/ Matlab/ VHDL/ any other
Course Outcome: Simulation Laboratory - IV
CO1: Ability to understand basic programming concepts
of the High Frequency Structure Simulation (HFSS) Tool
and LabVIEW
CO2: Ability to develop HFSS program to implement
basic antennas structures
CO3: Ability to obtain the radiation pattern, antenna
gain, S-parameters, return loss of the antenna, antenna
array
CO4: Ability to design, implement and validate the
antenna structures using HFSS
CO5: Ability to design, implement and demonstrate
the Block/Convolution codes using
Matlab/Multisim/LabVIEW
CO6: Ability to formulate, implement and
demonstrate an application of coding theory through an
open-ended experiment
Course Outcome: Image Processing
CO1: Ability to understand and explain concepts of
digital image processing.
CO2: Ability to apply the knowledge of image processing
techniques to enhance the quality of gray scale and colour
image, restore the degraded image, illustrate different
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

segmentation principles, and solve problems based on

different image processing transforms.
CO3: Ability to analyze the distance relationship between
pixels, evaluate Histogram equalization on gray scale and
colour image, deduce filter operations on the image,
analyze image segmentation and image transforms.
CO4: Ability to conduct experiments using MATLAB for
a given application/problem statement.
CO5: Ability to listen and comprehend audio/video
lectures related to image processing concepts.
Course Outcome: C++ and Data Structures
CO1: Ability to understand the programming concepts
for data structures
CO2: Ability to apply the knowledge of Engineering
mathematics and programming skills to develop efficient
codes in C++
CO3: Ability to analyze abstract object and real object
using class
CO4: Ability to design programming solutions with
operator overloading and memory management
CO5: Ability to work as an individual and thereby
conduct experiments using any C compiler for a given
application/problem statement.
CO6: Develop, test, analyze and demonstrate
applications using C++ and Data structures through an
Open-Ended Experiment
Course Outcome: Cryptography and Network
Security
CO1: Ability to define, understand and explain
concepts related to network security
CO2: Ability to apply the knowledge of mathematics to
cryptography
CO3: Ability to analyze the given security systems
parameters
CO4: Ability to perform as an individual, prepare a report
and make an effective oral presentation on
applications of network security protocols of
communication system, satellite systems , any other.,
Course Outcome: Microwave and Radar
CO1: Ability to define, understand and explain
concepts related to microwave and RADAR
CO2: Ability to apply the knowledge of electromagnetic
theory for propagation/transmission of microwaves
CO3: Ability to analyze the behavior of microwave active
devices and passive devices using S parameters
CO4: Ability to conduct experiments to measure the
losses, power, VSWR, coupling factor, isolation,
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

directivity, S-parameters (using microwave

bench/simulation tool)
CO5: Ability to engage in independent learning, submit a
report and use ICT for effective presentation on the
study on topics related to microwave link / standards /
radiation hazards / specifications / applications / impact
on society/environment
Course Outcome: Multimedia Communication
CO1: Ability to understand and explain concepts of
multimedia communication.
CO2: Ability to apply knowledge of analog and digital
communication to multimedia data.
CO3: Ability to analyze various communication
networks, derive text encoding, evaluate different image
compression schemes and analyze audio/speech/video
frames.
CO4: Ability to function effectively as an individual and
as a team member to conduct experiments using
MATLAB for a given multimedia application/problem
statement.
CO5: Ability to work as an individual/ in a team to
identify, test, analyze and demonstrate Multimedia
protocols as a mini-project using modern engineering
tools.
Course Outcome: Wireless Communication
CO1: Ability to define, understand and explain
concepts related to wireless communication
CO2: Ability to apply the knowledge of communication
and coding to wireless communication
CO3: Ability to analyze the given parameters for
different propagation models of wireless networks
CO4: Ability to conduct experiments to demonstrate
concepts of wireless communication using the engineering
tool such as QUALNET / MATLAB
CO5: Ability to perform in a team to prepare a report and
make an effective oral presentation of the study on
topics related to Networks protocols, contribution of
wireless systems to the society and its effect on
environment
Course Outcome: Project for Community Service
CO1:Ability to apply and analyze the engineering
concepts to solve the identified research work
through literature survey.
CO2:Ability to arrive at an exhaustive list of available
modern engineering tools, and select the tool for
implementing the identified research work
CO3:Ability to design systems using hardware
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

components/ software tools considering health, safety

and societal needs and validate the results of the
identified work leading to publications
CO4:Ability to abide by the norms of professional
ethics and meet societal and environmental needs
CO5:Ability to perform in the team, contribute to the
team and mentor/lead the team
CO6:Ability to communicate effectively through
presentation and demonstration of the project and
preparation of the report and video.
CO7: Ability to apply the principles of project
management and finance during the implementation of
the project
CO8:Ability to function effectively as an individual to
engage in independent learning

Course Outcome: Optical Fiber and Satellite

Communication
CO1:Ability to define, understand and explain concepts
of Optical Fiber and satellite communication system
CO2: Ability to apply the knowledge of electromagnetic
theory/ray theory to study the technologies of Fiber Optic
Communication and satellite communication
CO3: Ability to analyze power budget for a given
communication link
CO4: Ability to interpret sample satellite data and arrive
at suitable conclusion
CO5: Ability to function effectively as an individual or as a
team member to conduct experiments using optical
fiber kit.
Course Outcome: Speech Processing
CO1: Ability to define, understand, and explain
discrete time model of the speech production and short
time processing of the speech
CO2: Ability to solve LPC equations for speech
communication and obtain complex Cepstrum of speech
for pitch estimation
CO3: Ability to analyze and synthesize the speech in
frequency domain through short time Fourier transform
CO4: Ability to function effectively as an individual or as
a team member to conduct experiments using modern
engineering tools for a given Speech processing problem.
CO5: Ability to perform in a team to implement an open-
ended experiment
Course Outcome: Low Power Microcontroller
CO1: Ability to understand and explain the concepts of
low power microcontroller, architecture, addressing
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

modes, timer modes, displays, low power modes, serial

communication
CO2:Ability to identify the addressing modes, write and
execute assembly and C codes
CO3:Ability to debug and analyze the assembly and
embedded C code for variants of MSP430 microcontroller
CO4:Ability to identify the IDE to conduct
experiments using assembly and embedded C for
implementing low power applications on MSP430
hardware.
CO5:Ability to perform in a team/individual to prepare a
report and make an effective oral presentation of the
study on application of low power applications of
MSP430
Course Outcome: Sustainable Telecommunication
Networks
CO1: Ability to understand and explain the need for
sustainability, role of regulatory bodies, radiation hazards
and revenue models for telecommunication networks
CO2: Ability to apply the knowledge of radiation hazards
to minimize the effect on human health and environment
CO3: Ability to apply the Knowledge of finance
management to arrive at effective revenue models for
telecommunication networks
CO4: Ability to engage in independent learning, submit a
report and use ICT for effective presentation on the
study on topics related to, Awareness on Mobile Tower
Radiation & Its Impacts On Environment, human health
and protection from radiation hazards
Course Outcome: IPR & Cyber Law
CO1:Apply technical concepts of IPR and Cyber Law to
access societal, health, safety issues and continue
responsibilities relevant to the professional engineering
practices
CO2:Understand the impact of Patents, Copyright &
Trademarks and demonstrate the knowledge of Cyber Law
CO3: Ability to apply ethical principle to obtain
Intellectual property Rights like Patents, Copyright &
Trademarks and Action taken due to unethical Telecom
practices in Cyber law
CO4: Ability to work as an individual / in a team to
effectively communicate Intellectual Property rights and
Cyber Law leading to improvement in team work and
leadership qualities.
Course Outcome: Project Management and Finance
CO1: Ability to define, understand and explain
concepts related to Project management and Finance.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

CO2: Ability to apply the knowledge of project

Management and Finance for success of projects
CO3: Ability to analyze financial feasibility ,cost
estimation and financing of projects
CO4: Ability to design project work system
CO5: Ability to use modern tools for project scheduling
and monitoring aspects of project management.
CO6: Ability to engage in independent learning, submit
a report and use ICT for effective presentation on the
study on topics related to Management of
telecommunication based Projects.
Course Outcome: Satellites: Principles &
Applications
CO1:Ability to define, understand and explain Satellite
Principles and applications.
CO2: Ability to apply the knowledge of Physics,
mathematics, electronics and communication for satellites
CO3: : Ability to analyze orbital parameters, modulation
schemes, multiple access methods and satellite links
CO4: Ability to use tools for studying satellite
applications
CO5: Ability to engage in independent learning, submit
a report and use ICT for effective presentation of the
study on assigned topics related to applications of satellite
communication/ standards/ related hazards
Course Outcome: Seminar: Based on
Internship/Technical Paper
CO1:Ability to develop written and oral communication
skills in both technical and non-technical environment,
and use ICT for effective presentation of the study /
internship
CO2:Ability to function effectively as an individual to
identify the mathematical concepts, science concepts,
engineering concepts and modern engineering tools
necessary to communicate the identified study / internship
CO3:Ability to engage in independent study to research
literature and understand Telecommunication
engineering trends in the identified study
CO4:Ability to apply and analyze the knowledge of
Telecommunication and Electronics engineering concepts
to effectively communicate the results from various
publications
CO5:Ability to emphasize the need and abide by
professional ethics
CO6:Ability to emphasize the role of Telecommunication
and Electronics concepts on environmental, cultural
and societal aspects.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF TELECOMMUNICATION ENGINEERING

Course Outcome: Project Work

CO1:Ability to apply and analyze the engineering
concepts to solve the identified research work through
literature survey.
CO2:Ability to arrive at an exhaustive list of available
engineering tools, and select the tool for implementing
the identified research work
CO3:Ability to design systems using hardware
components/ software tools considering health, safety
and societal needs and validate the results of the
identified work leading to publications
CO4:Ability to abide by the norms of professional ethics
and meet societal and environmental needs
CO5:Ability to perform in the team, contribute to the
team and mentor/lead the team
CO6:Ability to communicate effectively through
presentation and demonstration of the project and
preparation of the report and video.
CO7: Ability to apply the principles of project
management and finance during the implementation of
the project
CO8:Ability to function effectively as an individual to
engage in independent learning
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

Name of the Programme B.E. in Information Science and Engineering

3rd and 4th Semester (New Scheme)

Programme Specific  PSO1: Apply and Analyze the concepts of Computer Networks
Outcomes (PSOs) to provide solution for evolving needs in Information
Technology.
 PSO2: Demonstrate knowledge of Software Engineering and
Data Science with competence in programming languages to
solve real-world problems.
 PSO3: Apply principles of information systems in the field of
engineering for proficient solutions.
5th, 6th 7th & 8th Semester (Old Scheme)
Programme Specific  PSO1: Apply and Analyze the concepts of Computer Networks
Outcomes (PSOs) to provide solution for evolving needs in Information
Technology.
 PSO2: Demonstrate knowledge of Software Engineering with
competence in programming languages to solve real-world
problems.
 PSO3: Apply principles of information systems in the field of
engineering for proficient solutions.
Programme Outcomes PO1 to PO12
(POs) PO1: Engineering Knowledge: Apply the knowledge of mathematics,
science, engineering fundamentals, and an engineering specialization
to the solution of complex engineering
problems.
PO2: Problem Analysis: Identify, formulate, review research
literature, and analyze complex engineering problems reaching
substantiated conclusions using first principles of mathematics,
natural sciences, and engineering sciences.

PO3: Design/Development of Solutions: Design solutions for complex

engineering problems and design system components or processes
that meet the specified needs with appropriate
consideration for the public health and safety, and the cultural,
societal, and environmental considerations.

PO4: Conduct Investigations of Complex Problems: Use research-

based knowledge and research methods including design of
experiments, analysis and interpretation of data, and synthesis of
the information to provide valid conclusions.

PO5: Modern Tool Usage: Create, select, and apply appropriate

techniques, resources, and modern engineering and IT tools
including prediction and modeling to complex engineering activities
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

with an understanding of the limitations.

PO6: The Engineer and Society: Apply reasoning informed by the

contextual knowledge to assess societal, health, safety, legal and
cultural issues and the consequent responsibilities relevant to the
professional engineering practice.

PO7: Environment and Sustainability: Understand the impact of the

professional engineering solutions in societal and environmental
contexts, and demonstrate the knowledge of, and
need for sustainable development.

PO8: Ethics: Apply ethical principles and commit to professional

ethics and responsibilities and norms of the engineering practice.
PO9: Individual and Team work: Function effectively as an
individual, and as a member or leader in diverse teams, and in
multidisciplinary settings.

PO10: Communication: Communicate effectively on complex

engineering activities with the engineering community and with
society at large, such as, being able to comprehend and write
effective reports and design documentation, make effective
presentations, and give and receive clear instructions.

PO11: Project Management and Finance: Demonstrate knowledge

and understanding of the engineering and management principles
and apply these to one’s own work, as a member and leader in a
team, to manage projects and in multidisciplinary environments.

PO12: Life-Long Learning: Recognize the need for, and have the
preparation and ability to engage in independent and life-long
learning in the broadest context of technological change.

Course Outcomes (COs) 19MA3BSSDM - STATISTICS AND DISCRETE MATHEMATICS

- 3rd and 4th Semester
(New Scheme) CO1: Use graphs as representation tool in network analysis.

CO2: Demonstrate an understanding of the basic concepts of

combinatorics.

CO3: Apply the concepts for probability, Statistics and Queuing

theory.

19IS3ESOPS - OPERATING SYSTEM

CO1: Understand the basic concepts of operating system

structures, services and functionalities.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO2: Apply various concepts to solve problems related to

synchronization, deadlocks, memory management, CPU
scheduling.

CO3: Compare different algorithms of CPUscheduling, Page

replacement, storage management and disk scheduling.

CO4: Analyze appropriate algorithm for the given CPU processes,

deadlock occurrences and memory management.

CO5: Demonstrate the algorithms used for CPU scheduling and

disk scheduling using OS sim.

19IS3PCDSC - DATA STRUCTURES WITH C

CO1: Apply principles of Data Structures for solving problems.

CO2: Analyse and Develop operations on linear and non-linear data

structures.

CO3: Design and formulate various method of organizing data.

CO4: Conduct experiments to implement operations like searching,

insertion, deletion, traversal mechanism on various data structures.

CO5: Demonstrate data structure coding skills on a competitive

programming platform.

CO6Make effective presentations on the implementations of

applications on data structures.

19IS3PCOOP - OBJECT ORIENTED PROGRAMMING USING C++

CO1: Comprehend the basic concepts of object oriented

programming with C++.

CO2: Apply the concepts of data abstraction, encapsulation,

polymorphism, inheritance, and templates and file handling.

CO3: Identify the usage of reusability, polymorphism and

exception handling for solving problems.

CO4: Develop solutions using object oriented programming concepts

for a given problem.

CO5: Conduct experiments for the concepts of function overloading,

operator overloading, exception handling, templates & file
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

functionalities using modern tools.

19IS3PCDLD - DIGITAL LOGIC DESIGN

CO1: Comprehend basic logic gates, combinational logic circuits and

sequential logic circuits.

CO2: Apply digital logic to simplify boolean equations and functions.

CO3: Design synchronous and asynchronous counters.

CO4: Analyze combinational and sequential logic circuits.

CO5: Prototype synchronous and asynchronous sequential circuits.

19IS3PCCOA - COMPUTER ORGANIZATION AND

ARCHITECTURE

CO1: Comprehend the concepts of basic architecture of a

computer, instruction execution, interrupts, bus structures,
memory organization, arithmetic unit operations and
Pipelining concepts.

CO2: Apply the types of addressing modes, stack operations,

subroutines, types of memory mapping, and arithmetic operations
and data transfer methods on various problems.

CO3: Analyse instruction set architecture, interface circuits,

arithmetic and logic circuits, pipeline performance.

CO4: Identify the control signals, types of interrupts, bus

structures, memory, arithmetic operations and microcontrollers.

CO5: Make an effective communication and presentation in a

team on different processor architecture.

19IC3HSCPH - CONSTITUTION OF INDIA, PROFESSIONAL

ETHICS AND HUMAN RIGHTS

CO1: Understand and explain the significanceof Indian Constitution

as the Fundamental Law of the Land.

CO2: Analyse the concepts and ideas of Human Rights.

CO3: Apply the practice of ethical responsibilities and duties to

protect the welfare and safety of the public.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

19IS3PWWAD - WEB APPLICATION DEVELOPMENT

CO1: Apply the knowledge of HTML, CSS and Scripting

technologies to develop interactive web applications.

CO2: Analyze front-end web coding languages to add dynamic

content, animation and effects to websites.

CO3: Identify client side and server side scripting technologies.

CO4: Design an interactive website(s) with regard to issues of

usability, accessibility and Standards.

CO5: Develop web application in a Team.

CO6: Create device independent web pages based on user

specific requirements and constraints using Integrated
Development tools (Webstorm/VS Code/Atom).

19MA4BSLIA - LINEAR ALGEBRA

CO1: Apply the concepts of Matrices to linear systems and vectors

spaces.

CO2: Relate the concepts of Eigen values, Eigen vectors & functions
to linear algebra.

CO3: Apply the concepts of inner products to matrix decomposition.

19IS4PCDBM - DATABASE MANAGEMENT SYSTEM

CO1: Comprehend the fundamentals of database management

systems, ER model, relational algebra, SQL, NoSQL, design
principles and Transaction management.

CO2: Apply database management concepts, principles, Entity –

Relationship model, relational algebra concepts, database design
principles and Transaction management to describe DB to given
scenario.

CO3: Analyse the concepts of database management principles,

Entity –Relationship model, ER to Relational mapping, relational
algebra and database design principles.

CO4: Design the given application without anomalies using ER

modeling, Normalizations, transaction management properties.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO5: Synthesize sophisticated queries to extract the information

from the given database using SQL and NoSQL.

CO6: Develop and demonstrate Database Management System

for real time problem in a deiverse team using appropriate tools.

19IS4PCADA - ANALYSISAND DESIGN OF ALGORITHMS

CO1: Apply various algorithmic design paradigms to basic computing

problems.

CO2: Analyze the time complexity of different algorithms.

CO3: Design efficient algorithms using appropriate algorithm design

techniques.

CO4: Conduct experiments to implement algorithms and provide

valid conclusions.

CO5: Make effective presentations and documentation to justify the

performance of designed algorithms for the computing problem.

19IS4PCJAV - JAVA PROGRAMMING

CO1: Comprehend the concepts of objects, classes, packages,

interfaces, strings, collections and swing.

CO2: Apply the principles of object oriented programming to solve

problems.

CO3Identify the usage of constructs for reusability, abstraction,

exception handling and multithreading.

CO4: Develop computer programs to handle runtime errors,

concurrency, files, generics and graphical user interface components.

CO5: Conduct experiments to implement various operations on

classes and swing.

CO6: Demonstrate coding skills on a competitive programming

platform.

19IS4PCTFC - THEORETICAL FOUNDATIONS OF

COMPUTATION

CO1: Understand the fundamental concepts of formal languages and

automata.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO2: Apply basic algorithms to solve problems related to the area of

theory of computation

CO3: Recognise different computing language classes and their

relationship.

CO4: Analyse automata and their power to recognise languages.

CO5: Design grammars and automata for different levels of formal

languages.

CO6: Construct and simulate automata using simulation tool.

19IS4PWUSP - UNIX SYSTEM PROGRAMMING

CO1: Apply API’sfor implementing UNIX commands, file

management and process control

CO2: Analyse System call interface for process management,

multitasking programs, IPCS in UNIX

CO3: Design client server communications using IPCS

CO4: Communicate effectively in a team and demonstrate the

solution for a given Problem.

Course Outcomes (COs) 16IS5DCJAV - PROGRAMMING WITH JAVA

- 5th, 6th 7th & 8th
Semester (Old CO1: Comprehend the concepts of object oriented programming,
Scheme) packages and applets.

CO2: Apply the concepts of encapsulation, inheritance,

polymorphism, packages, interfaces, generics, files and applets

CO3: Analyze theusageofobject oriented programming concepts,

exception handling and multithreading.

CO4: Design computer programs to solve problems using object

oriented concepts

CO5: Conduct experiments using object oriented concepts to solve

problems.

CO6: Design and present solutions for applications using appropriate

object oriented concepts.

16IS5DCDBM - DATABASE MANAGEMENT SYSTEMS

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO1: Comprehend the fundamentals of database management

systems, ER model, relational algebra, SQL, design principles and
Transaction management.

CO2: Apply database management concepts, principles, Entity –

Relationship model, relational algebra concepts, database design
principles and Transaction management to describe DB to given
scenario.

CO3: Analyse the concepts of database management principles,

Entity –Relationship model, ER to Relational mapping, relational
algebra and databasedesign principles.

CO4: Design the given application without anomalies using ER

modeling, Normalizations, transaction management properties.

CO5: Synthesize sophisticated queries to extract the information

from the given database.

CO6: Usage of modern tools to implement the real world applications

(database)popular databases.

CO7Communicate effectively as a member in a diverse team.

16IS5DCDCN - DATA COMMUNICATION AND NETWORKING

CO1: Acquire the Knowledge about the various principles of

datacommunication in datalink layer and network layer

CO2: Analyze the need of for different protocols in datalink layer

and network layer of TCP/IP protocol suite

CO3: Design network using internetworking concepts and related

protocol by analysingthe need various routing protocols for different
scenarios.

CO4: Design wireless LAN, any network using internetworking

concepts and protocols.

CO5: Conduct simulation on a given network for global addressing,

subnetting,routing and protocol usage.

CO6: Conduct experiments on design of networking concepts using

modern engineering tool.

16IS5DCWEP - WEB PROGRAMMING

CO1: Acquirethe basic knowledge of scripting language to build web

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

pages

CO2: Use XHTML concepts to provide interactive websites for

client-server systems

CO3: Validate user inputs based on constraints and

requirements using javascript

CO4: Identify appropriate web elements to prepare dynamic pages

CO5: Interact with client-server systems on user specific mark-up

language

CO6: Conduct experimentsforthe real time concepts of web

programming.

16IS5DEIOT - INTERNET OF THINGS

CO1: Familiarize with the fundamentals of Internet of Things for

communication models.

CO2: Apply the conceptsof sensors, cloud, data pushing and pulling
mechanisms to develop IoT solutions.

CO3: Explore appropriate architectures, programmable interfaces

and communication technologies to design IoT models.

CO4: Differentiate between the levels of the IoT stack, key

technologies and protocols employed at each layer.

CO5: Program a controlled software for the desired IoT

applications using sensors, wireless network connections,
display/actuators and data analytics.

CO6: Create a working IoT prototype in teams involving design,

programming and data analytics using appropriate hardware
components and software tools.

16IS5DEDMG - DATA MINING

CO1: Comprehend the concepts of Data, Classification, Association

and Cluster analysis.

CO2: Apply the Concepts of pre-processing, classification and

clustering for data extraction.

CO3: Arrive at valid predictions by analysing proximity measures,

OLAP and multidimensionality.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO4: Examine the association levels to generate rules for various

item sets.

CO5: Interpret the substantial conclusions obtained by using

clustering and classification mining techniques.

CO6: Conduct experiments using data mining techniques for Pre-

processing, Association, Classification and Clustering using modern
tools.

16IS5DEPYP - PYTHON PROGRAMMING

CO1: Understand the Python environment, basic operations, objects,

files, exceptions, OOPs concepts, databases and System tools.

CO2: Use operations and constructs of programming to implement

solutions for engineering problems.

CO3: Provide an analysis for usage of file operations, exception

hierarchy and connectivity to database.

CO4: Justify the importance of different programming constructs and

system tools.

CO5: Implement control structures using appropriate techniques and

resources.

CO6: Interpret various scenario based problems to provide feasible

solutions.

16IS5DEAIN - ARTIFICIAL INTELLIGENCE

CO1: Understand the concept of agents, environments, search

strategies, reasoning, logic and probabilities.

CO2: Solve problems using uninformed and informed search

strategies.

CO3: Represent procedural and declarative knowledge by applying

agent based rules.

CO4: Providelogic based analysis for question and answering

techniques.

CO5: Formulateprobabilities for handling uncertain knowledge.

CO6: Conductexperimentsrelated to artificial intelligence using

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

PROLOG programming tool.

16IS6DCSEO - SOFTWARE ENGINEERING AND OBJECT

ORIENTED DESIGN

CO1: Comprehend software life cycle, testing, UML notations and

patterns.

CO2: Apply appropriate associations, interaction modeling, predict

patterns categories.

CO3: Analyze software architecture, design models, testing methods

and business solutions.

CO4: Interpret requirements, test phases, modeling, transitions and

architectural patterns.

CO5: Design UML models, patterns, traceability matrix.

CO6: Create models for a business solutions systems.

16IS6DCCNS - COMPUTER NETWORKS AND SECURITY

CO1: Understand the working principles of Transport, Application

and Security protocols.

CO2: Solve problems concerned with end to end communication and

security by applying the concepts of various protocols.

CO3: Review the functionalities of protocols at transport layer

& application layer, security aspects.

CO4: Interpret network and security algorithms with appropriate

methods to provide valid conclusions.

CO5: Formulate feasible solutions for practical applications using

network simulators.

CO6: Communicate effectively as a member in diverse team.

16IS6DCEAM - ENTREPRENEURSHIP AND MANAGEMENT

CO1: Obtain an understanding of entrepreneurial characteristics

business ideas, organization structure, management and
administration.

CO2: Recognise opportunities byapplying ideas for product

development, marketing and management.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO3: Review strategicplanning for entrepreneurialmanagement and

legal forms of business.

CO4: Develop businessplans based on product and services in-line

with thetarget market.

CO5: Provide analysis of organisation structures, business strategies,

training and leadership models.

CO6: Prepare documents and communicate effectively on

entrepreneurial ventures and opportunities.

16IS6DCCDN - C# AND .NET

CO1: Comprehend .NET centric buildingblocks, syntactical

constructs, concepts of OOP and Exception handling.

CO2: Apply appropriate C# programming constructs,

namespace ,Exception Handling and Object Oriented concepts to
solve problems(L3)

CO3: Identify value types, reference types, read only, System.

Collections and Interfaces.

CO4: Analyze C# programming constructs, nullable types,

casting rules, Application level exception

CO5: Conduct experiments as per the specific requirements and

constraints usingintegrated developmenttools

CO6: Create solutionsfor problems using appropriate constructs.

16IS6DCSNA - SOCIAL NETWORK ANALYSIS

CO1: Comprehend the basic knowledge of social network analysis,

graphs, cliques, structural equivalence, positional analysis and data
collection.

CO2: Apply graphs and matrices torepresent social networks

CO3: Analyze the usage of graphs, matrices and subgroups in social

networks

CO4: Communicate effectively in a team and investigate on the

topics related to Social Network Analysis.

16IS6DECGS - COMPUTER GRAPHICS

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO1: Gain proficiency of computer graphics algorithms

like modeling, transformations and rendering

CO2: Perform simple 2D and 3D graphic transformations by

applying graphics primitives.

CO3: Recognize different techniques for analysing 2D, 3D and

visible surface detection object geometry.

CO4: Design algorithms for various graphics shapes including ellipse,

hyperbola and triangle.

CO5: Experiment various graphic primitives using OpenGL

programming.

CO6: Create effective OpenGL functions to solve graphics

programming issues in 2D & 3D Object modeling.

16IS6DEVCS - VIRTUALIZATION AND CLOUD SECURITY

CO1: Understand computing systems, cloud-paradigms, security

andprivacy issues in cloud environments.

CO2: Apply the different computing principles using cloud

environment.

CO3: Analyse the importance of virtualization in distribute

computing and how this has enabled the development of cloud
computing.

CO4: Design cloud environment for different real time requirements.

CO5: Implement virtualization and cloud scenarios.

CO6: Develop applications on cloud environments.

16IS6DEMLG - MACHINE LEARNING

CO1: Comprehend on machine learning algorithms based on concept

learning, decision trees, neural networks, hypothesis and classifiers.

CO2: Apply specific principles to obtain solutions for appropriate

problems in learning tasks and instances.

CO3: Identify the challenges to analyze different approaches for

training intelligent systems.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO4: Evaluate hypothesis with suitable considerations for design of

solutions to specific tasks.

CO5: Investigate the strategies in well-posed and instance based

problems to arrive at valid conclusions.

CO6: Conduct experiments to demonstrate applicable techniques in

machine learning.

16IS6DEPDC - PARALLEL AND DISTRIBUTED COMPUTATIONS

THROUGH JAVA

CO1: Understand the basics of parallel and distributed computing

environments.

CO2: Design event listener interfaces and applets.

CO3: Assess the concepts of issues and tasks in parallel and

distributed computing, different parallel architectures, programming
models and algorithms for common operations.

CO4: Analyse connectivity and parallelism in database processing

using files.

CO5: Design parallel and distributed programming models for

pipelined computations.

CO6: Demonstrate parallel programming applications using CORBA.

16IS7DCMAD
MOBILE APPLICATION DEVELOPMENT

CO1: Understand the components, controls, adapters, menus,

packages, services and related functionalities of Android for mobile
application development.

CO2: Apply the knowledge of constructs in Java and XML to

obtain feasible modules as a solution for engineering problems.

CO3: Analyse packages, project libraries and services to obtain

a framework for solving problems in development of mobile
applications.

CO4: Obtain the code patterns by investigating resources to

arrive at valid conclusions.

CO5: Create GUI programs based on common controls,

themes, actions, components, handlers and mapping packages
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

using Android Studio/SDK.

CO6: Design mobile Apps to provide solutions for real world

problems by incorporating multidisciplinary settings.

16IS7DCMCT
MOBILE COMPUTING

CO1: Gain the knowledgeabout the fundamentals of Mobility

Management,Computing Architecture, communications, Network
Signalling, Services.

CO2: Formulate the mobile communication services, signals,

protocols by applying various technologies such as GSM, Wimax and
GPRS.

CO3: Analysethe strategies used in the implementation of mobile

computing architecture.

CO4: Demonstrate the properties of communication system

components and processes by designing sample wireless networks.

CO5: Ascertain the technological growth to interpret various

types of mobile generation services.

CO6: Simulate wireless communication network by using

modern tools like Qualnet/Matlaband analyse the obtained
results to arrive at substantial conclusions by communicating
effectively as a member of diverse team.

16IS7DCICL - INDIAN CYBER LAW AND IT

CO1: Understand IT Act and itsAmendments, Cyber Law, Legal

issues, Intellectual property rights and Certifying Authorities.

CO2: Make use of IPR and its practices to commit

towards social responsibilities.

CO3: Identify various cybercrimes penalties and compensation

with the knowledge of IT Act.

CO4: Infer the impact of cybercrimes on society.

CO5: Adapt UNCITRAL Model Law for lifelong learning.

CO6: Communicate effectively and make effective presentation on

recent cybercrimes cases.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

161S7DEAWP - ADVANCED WEB PROGRAMMING

CO1: Paraphrase the basic structure and syntax of Ruby, Rails, Ajax
and Jquery

CO2: Apply the concepts of Ruby, Rails, Ajax and Jquery to add
dynamicity and animations to web pages.

CO3: Correlate the events and analyse the document modeling in

establishing database connections through web pages.

CO4: Integrate the interactive web applications using jQuery, Json,

Ajax.

CO5: Incorporate the information to provide valid conclusion on

usage of various scripting frameworks.

CO6: Demonstrate the implementation of scripting programs using

modern web frameworks and tools.

16IS7DESAN - STORAGE AREA NETWORKS

CO1: Acquire the fundamental Knowledge of server centric, storage

centric IT architecture, Intelligent disk subsystems, I/O techniques,
NAS system and storage virtualization.

CO2: Identify the need of different RAID levels, I/O techniques,

Virtualization and management of storage networks.

CO3: Apply the concepts of RAID, SAN, NAS, file systems in storage
area networks.

CO4: Determine the use of SNMP, CIM, WBEM and SMI-S by

identifying its need in management of storage networks.

CO5: Compare different RAID levels and analyze the benefits of

virtualization in SAN.

CO6: Extract information and make effective presentation and

documentation on the benefits of the different network storage
options for various application environments.

16IS7DECTS - CRYPTOGRAPHIC TECHNIQUES AND SECURITY

CO1: Comprehend the foundational theory of cryptographic

techniques, principles and practices.

CO2: Effectively apply various cryptographic techniques to solve

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

security threats.

CO3: Compare various cryptographic techniques that cause

security risks in networks.

CO4: Identify the elements of security protocols and methods to

solve problems.

CO5: Use appropriate public cryptosystem to evaluate information

security risks.

CO6: Develop security solutions of standard cryptographic

algorithms using modern tools.

16IS7DEFDS
FOUNDATIONS OF DATA SCIENCE

CO1: Acquire knowledge on data science using R tool,

managing data, modeling methods, recommendation system
and delivering the results.

CO2: Apply machine learning concepts for data modeling, data

evaluation and validation.

CO3: Examine predictive data model analysis and the

method for dimensionality reduction.

CO4: Develop a model for content based systems and

recommendation systems.

CO5: Effective presentations, documentations and models are

designed to end users.

CO6: Demonstrate the data science process using modern tools.

16IS7DEACC - ADVANCED CLOUD COMPUTING

CO1: Comprehend the fundamentals of cloud computing

technologies, role of networks, migration, distribution, security,
web services.

CO2: Apply the knowledge of cloud computing load distribution

schemes, scheduling composite services, secure distribution of data
for migrating applications to a cloud environment.

CO3: Analysethe concepts of cloud computing such as vertical

load distribution, scheduling composite services, secure
distribution of data, various representation of data,open
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

questions and challenges facing in current information technology.

CO4: Design a cloud based applications by using the principles

of cloud virtualization, cloud storage, security management, data
management, load distribution for giving solutions to Information
Technology services.

CO5: Synthesize the data handling using XML parsers, JSON

parsers, and REST services to investigate the status of remote
object.

CO6: Usemodern tools to implement the cloud application using

popular cloud technologies.

16IS7DESTG - SOFTWARE TESTING

CO1: Understand the importance of software testing fundamentals

and methodologies.

CO2: Apply the knowledge of software testing strategies and

methodologies for testing performance.

CO3: Analyse various criteria’s and specification for testing a

software product.

CO4: Design effective test cases to achieve requirement

specification.

CO5: Investigate various testing strategies to find bugs in the

software.

CO6: Demonstrate the usage of modern testing tools to write

automation scripts.

16IS7IE1ML - MACHINE LEARNING

CO1: Comprehend on machine learning algorithms based on concept

learning, decision trees, neural networks, hypothesis and classifiers.

CO2: Apply specific principles to obtain solutions for appropriate

problems in learning tasks and instances.

CO3: Identify the challenges to analyse different approaches for

training intelligent systems.

CO4: Evaluate hypothesis with suitable considerations for designof

solutions to specific tasks.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO5: Investigate the strategies in well-posed and instance based

problems to arrive at valid conclusions.

CO6: Predict probabilities for machine learning applications.

16IS7IE1IS - INFORMATION SECURITY

CO1: Obtain knowledge on the fundamentals of information security,

risk management, firewalls and security management.

CO2: Explore the various attacks, threats, access control, IDPS and
risks.

CO3: Protect remote connections, access risks, detect

intrusions using security principles.

CO4: Provide analysis for various risk controls, firewall

detections and prevention systems.

CO5: Use suitable security technologies and VPNs to protect data.

CO6: Communicate effectively and make presentation on

modern techniques for intrusion detection and prevention system of
information security.

16IS7DCPRW - PROJECT WORK

CO1: Review the existing systems to formulate the problem.

CO2: Select the modern tools for solving the identified engineering
problem.

CO3: Design a solution for the chosen problem.

CO4: Analyze results of experiments conducted to arrive at valid

conclusions and its impact on societal and environmental context.

CO5: Communicate effectively through presentation and

demonstration of the project and write effective Report.

CO6: Function effectively in the team and contribute to the team.

16IS8DCPR - PROJECT WORK

CO1: Formulate the significant aspects perceived from literature

survey which helps in problem analysis.

CO2: Applying the Knowledge of problem analysis to identify

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

the required design constraints to achieve solutions.

CO3: Select the platform/tools in the set of alternatives

identified for the project synopsis.

CO4: Develop software to provide solution for the identified project.

CO5: Investigating for arriving towards optimum valid results for

implemented software project.

CO6: Communicate effectively through presentation and

demonstration of theproject and write effective report.

CO7: Identify the community that shall benefit through the

solution to the identified software problem and demonstrate
concern for environment.

CO8: Function effectively in the team, contribute to the team and

mentor/lead the team.

CO9: Demonstrate compliance to the prescribed standards/safety

norms through implementation of the identified software problem.

16IS8DCGCT - GREEN COMPUTING

CO1: Create awareness about Green Software, Sustainable Software

Development and Enterprise Green IT Strategy in the IT working
environment leading to green computing.

CO2: Apply the various methodologies to measure the sustainable

performance of software projects.

CO3: Analyse sustainability challenges associated with data centre

and strategies to mitigate energy consumption.

CO4: Analyse information requirements and methods utilized at

multilevel sustainable information.

CO5: Propose solutions for various case studies in Green Computing.

CO6: Effective documentation and presentation of the technical

paper with proposed sustainable solution for green computing.

16HS8DCSPF - SOFTWARE PROJECT MANAGEMENT AND

FINANCE

CO1: Acquire knowledge on software project management

facets,phases,knowledge areas,financial management and
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

entrepreneurship

CO2: Apply the project management knowledge areas

associated with software managerial activities and requirements
engineering

CO3: Identify theories of financial management, quality

management and entrepreneurship with related analysis

CO4: Interpret cost estimation and budgets for the given case
studies

CO5: Recognize the impact of software project management

principles on society through industry interaction

CO6: Demonstration of projects in terms of software managerial

activities and requirements engineering.

16HS8DELFE - LAW FOR ENGINEERS

CO1: Enumerate the principles of sustainable development.

CO2: Discuss the significance of various legislations pertaining to

engineers.

16IS8IE2WI - WEB PROGRAMING AND INTERNET

APPLICATIONS

CO1: Understand the basic structure and syntax of Perl, Ajax,

servlets and ASP.NET.

CO2: Identify the knowledge of scripting language to add dynamicity

to web pages.

CO3: Formulate the various scripting languages in establishing data

base connections through web pages.

CO4: Analyse the client and server side web application using Perl,
CGI scripting and Ajax.

CO5: Compare and contrast various client/server side scripting

frameworks.

CO6: Demonstrate the implementation of web applications using

modern web frameworks and tools.

16IS8IE2BD - BIG DATA ANALYTICS

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO1: Understand the concepts of data storage, Hadoop, HDFS, Map

Reduce, YARN, Hadoop I/O and operations for analytics of big data.

CO2: Apply the knowledge of data streaming, distributed file system,

scheduling and cluster specification to obtain solutions for huge
storage.

CO3: Analyse the data storage problems and arrive at substantiated

conclusions with Hadoop features and operations.

CO4: Designstrategies for storage and analytics by investigating

Hadoop benchmark & YARN configurations to arrive at valid
conclusions.

CO5: Createappropriate techniques using features and operations of

Map Reduce & YARN for modeling data analytics.

CO6: Designa framework to incorporate file based data structures for

Hadoop/Yarn setup and installation to meet the storage
requirements.

Name of the
M.Tech in Computer Network Engineering
Programme
Programme Educational PEO 1: Excel in their professional career in computer network
Objectives (PEOs) engineering and allied disciplines

PEO 2: Achieve Proficiency in Industry or Academia and Research &

Development

PEO 3: Exhibit professionalism, team work and adapt to the latest

technologies through continuous learning
Programme Outcomes PO1 An ability to independently carry out research /investigation
(POs) and development work to solve
practical problems

P1A1 Conducting experiments to investigate/validate/analyse the

identified research work (paper/Thesis);

P1A2 Apply research methodologies/ techniques/modern tools to

provide practical solution to benefit an identified community

P1A3 Engage in critical analysis to arrive at a valid conclusion

through research (theoretical/practical/ policy) to provide an
alternate/optimal solution to an identified problem;

P1A4 Ability to independently carry out study and present results

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

(expected or otherwise) for a defined problem

PO2 An ability to write and present a substantial technical
report/document

P2A1 Engage in independent study to prepare a Technical

document/make an oral presentation to address engineering
concepts
P2A2 Engage in independent study to prepare a Poster presentation
of the identified work/task;
P2A3 Prepare a technical document for the identified product/
system;
PO3 An ability to demonstrate mastery in the domain of the
specialization of the program

P3A1

domain;

P3A2 To demonstrate scholarship of knowledge through performing

in a group to identify, formulate and solve a problem that requires
multiple skills

P3A3 To demonstrate scholarship of knowledge to arrive at a

mathematical model to effectively represent the given system/device

P3A4 To demonstrate scholarship of knowledge through conducting

experiments/ performing mathematical analysis/ simulation study to
arrive at the operating range for various input parameters to ensure
desired output/performance
P3A5

P3A6 Comprehend management theories and practices to arrive at

a business model for an engineering solution.

Course Outcomes (COs) 18ISCNBSMF - MATHEMATICAL FOUNDATIONS OF COMPUTER

NETWORKS

CO1: Apply the knowledge of probability theory, Random variables,

Queuing models and graph theory’s to solve real world problems.

CO2: Analyze and Synthesize the inferences on real world

engineering problems using Information, graph and queuing theories
to realize network communication systems.

CO3: Conduct experiments/simulations using computer programs to

facilitate the analysis and representation of data from the chosen
networking application domain.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

18ISCNPCCN - ADVANCES COMPUTER NETWORK

CO1: Demonstrate in-depth knowledge in the area of Computer

Networking.

CO2: To demonstrate scholarship of knowledge through performing

in a group to identify, formulate and solve a problem related to
Computer Networks.

CO3: Prepare a technical document for the identified Networking

System.

CO4: Conducting experiments to analyse the identified research

work in building Computer Networks.

18ISCNPCWN - WIRELESS ADHOC NETWORKS

CO1: Enumerate the concept of wireless ad-hoc networks and issues

in different layers of protocols in network.

CO2: Articulate routing protocols of ad-hoc networks.

CO3: Prioritize table-driven, on-demand and hybrid protocols and

identify appropriate attributes for routing.

CO4: Infer performance of various unicast and multicast routing

protocols.

CO5: Evaluate on security attacks and secure routing.

CO6: Investigate the measurements of protocol performance in

wireless ad-hoc networks.

18ISCNPENS - CRYPTOGRAPHY AND NETWORK SECURITY

CO1: Apply knowledge of classical encryption, decryption and key

sharing technique to achieve secured data transmission between
applications

CO2: Demonstrate knowledge of various crypto systems and security

protocols in attaining the secure communication.

CO3: Prepare a technical document for the secured data

transmission implemented between applications.

18ISCNPESR - SECURITY ASSESSMENT AND RISK ANALYSIS

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO1: Recommend contingency strategies for data backup, recovery,

business resumption planning.

CO2: Escalate process from incident to disaster in case of security

disaster.

CO3: Design a Disaster Recovery Plan for sustained organizational

operations.

CO4 Design a Business Continuity Plan for sustained organizational

operations.

18ISCNPESC - SECURE CODING

CO1: Apply the principles of secure coding in practice.

CO2: Evaluate the core Python programming to secure the code.

CO3: Develop and deploy secured web applications.

CO4: Create secured network programs.

CO5: Design and develop secured code using modern tools.

18ISCNPENP - NETWORK PROGRAMMING

CO1: Apply the Client and Server design practices towards designing
efficient Servers and Clients.

CO2: Demonstrate the programming knowledge in designing and

developing service specific Server with Clients.

CO3: Perform independently/team to carry out study and Develop a

Web Client and Server software for providing specified service using
appropriate tools.

CO4: Prepare a technical document for the Client-Server software

developed.

18ISCNPESD - SOFTWARE DEFINED NETWORK

CO1: Conceptualize on data and control plane separation,

Openflow, network programmability, virtualization, data center
constructs and SDN Framework.

CO2: Apply plane-models, protocols, programmatic interfaces and

framework notion for engineering deployments.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO3: Analyze paradigm shift in the functionality of network models,

controllers and constructs.

CO4: Assess the strategies used for development of software defined

operations and infrastructure.

CO5: Possess knowledge on industry-scale operations for network

virtualization, data center design and modern orchestration.

CO6: Ascertain practical implementation of SDN and learn controller

application programs.

18ISCNPEDS - ADVANCES DATA STRUCTURES

CO1: Analyse and develop operations on linear and non-linear data

structures.

CO2: Design solutions for applications using appropriate data

structures for efficient management of data.

CO3: Carry out independent investigations of operations on various

advanced data structures through experiments.

18ISCNPESN - SOCIAL NETWORK ANALYSIS

CO1: Mastery the notations and terminologies of social network.

CO2: Visualize, Measure and Compare social network problems.

CO3: Analyse data connectivity problems by using social network

algorithms.

CO4: Analyse multimedia connectivity problems by using social

network algorithms.

CO5: Apply algorithms on a real world social media problems.

18ISCNPESA - ADVANCES STORAGE AREA NETWORK

CO1: Demonstrate In-depth knowledge/Scholarship of knowledge in

the area of storage area networks.

CO2: Engage in independent study to prepare an oral presentation to

address latest topics on storage networks.

CO3: Prepare a technical document for the solutions for the storage
area networks related proposed system.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO4: Engage in critical analysis to arrive at a valid conclusion

through theoretical approach to provide an alternate solution to an
identified problem in the area of storage area networks.

CO5: Demonstrate In-depth knowledge/Scholarship of knowledge in.

18ISCNPEPR - PROTOCOL ENGINEERING

CO1: Compare the communication protocol development methods.

CO2: Apply protocol specification languages for the given problems.

CO3: Validate and verify using methods.

CO4: Perform protocol verification and validation testing.

CO5: Implement tools for protocol engineering.

18ALLPICRM - RESEARCH METHODOLOGY AND IPR

CO1: Ability to write and present a substantial technical

report/document.

CO2: Able to demonstrate a degree of mastery over the area of

specialization.

18ISCNPCCL - CYBER SECURITY AND LAW

CO1: Discriminate and analyze problems involved in cybercrime

CO2: Synthesis cybercrime issues on wireless and mobile devices

CO3: Use and apply modern cyber forensics tools

CO4: Analyze the computer forensic problems for a feasible solution

CO5: Apply cyber law for a given type of cyber issues

18ISCNPCIT - INTERNET OF THINGS

CO1: Apply in-depth knowledge of Internet of Things in Identifying

the appropriate APIs and Enabling Technologies required to develop
applications of IoT.

CO2: Apply Modern tools and techniques to provide solution to

benefit an identified community.

CO3: Apply Modern tools and techniques to provide solution to

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

benefit an identified community.

CO4: Analyse the data obtained from sensors to make it meaningful

information.

CO5: Prepare a technical document on the IoT solution model

developed.

18ISCNPCNM - NETWORK MANAGEMENT

CO1: Enumerate the applications of NM and challenges pertaining to

security management of an IT Manager.

CO2: Articulate network management standards, models and

language.

CO3: Prioritizing network management functional groupings.

CO4: Infer the performance of RMON groups and functions.

CO5 Evaluate on event correlation techniques, TLV formats and

parameters of SNMP model.

CO6: Learn the network management models using ASN.1 notation

and latest RFCs update.

18ISCNPEHP - HIGH PERFORMANCE COMMUNICATION

NETWORKS

CO1: Demonstrate In-depth knowledge In high speed networks and

estimate the link performance.

CO2: Communicate and present effectively the principles used in

High Performance computing.

CO3: Engage in critical analysis to arrive at a valid conclusion for

novel ideas in the area of High Speed Networking via research
Publications.

CO4: Engage in independent study to prepare a Technical

document to address High Speed Networks concepts.

18ISCNPEAA - ADVANCED ALGORITHMS

CO1: Determine the asymptotic complexity of iterative and recursive

algorithms.

CO2: Design and implement efficient solutions to various real world

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

problems through algorithms.

CO3: Evaluate and justify algorithmic solutions for their correctness

and complexity.

CO4: Carry out independent investigations of algorithm solutions for

a defined computational problem through experiments.

18ISCNPEML - ADVANCED MACHINE LEARNING

CO1: Explore machine learning algorithms based on concept

learning, decision trees, neural networks, hypothesis and classifiers.

CO2: Formulate solutions for appropriate problems in learning tasks

using principles and instances.

CO3: Analyse classification and stochastic approaches for training

intelligent systems.

CO4: Estimate hypothesis and dimensions with suitable

considerations for design of solutions to specific tasks.

CO5: Investigate the strategies in well-posed and instance-based

problems to arrive at valid conclusions.

CO6: Conduct experiments to demonstrate applicable techniques in

machine learning.

18ISCNPEBD - BIG DATA ANALYTICS

CO1: Analyze big data, data science and its applications.

CO2: Analyze NoSQL data models and compare with RDBMS.

CO3: Identify and analyze design issues of Hadoop and HDFS.

CO4: Use MongoDB and MapReduce to perform data analytics and

for data visualization.

18ISCNPECC - CLOUD COMPUTING

CO1: Apply depth knowledge of Cloud computing theories and

practices for building and managing Cloud.

CO2: Engage in critical analysis to arrive at a valid conclusion

through research to provide an alternate/optimal solution to an
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

identified problem.

CO3: Demonstrate in-depth knowledge of Cloud computing to build a

private Cloud.

18ISCNPEMD - MOBILE APPLICATION DEVELOPMENT

CO1: Gain insight on components, controls and functionalities of

Android for application development.

CO2: Conceptualize on Android constructs to obtain feasible modules

as a solution for engineering problems.

CO3: Analyse packages, project libraries and services to obtain a

framework for solving problems in development of mobile
applications.

CO4: Obtain the code patterns by investigating resources to arrive at

valid conclusions using debugging tools.

CO5: Illustrate programming resolutions for applications by

incorporating appropriate settings.

18ISCNOECN - COMPUTER NETWORK

CO1: Apply the knowledge of networking architectures

and technologies in designing/building a computer
network and evaluating its performance.

CO2: Demonstrate various protocols, global addressing, Subnetting,

VLAN, forwarding and routing in Internetworking.

CO3: Design various Internetworking applications (e.g. Client Server

applications, Web Services).

CO4: Perform in a team to implement network applications using

networking tool.

18ISCNIEWT - WEB TECHNOLOGIES

CO 1: Apply HTML, CSS and Javascript to design and build

webpages.

CO 2: Use core web coding languages to add dynamic content,

animation and effects to websites.

CO 3: Design and Build interactive web apps using data-driven

technologies using modern Integrated Development Environments.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF INFORMATION SCIENCE AND ENGINEERING

CO 4: Prepare a technical document for the web application solution.

18ISCNPEBM - BUSINESS MODELS AND ENTREPRENEURSHIP

CO1: Demonstrate knowledge of management methods.

CO2: Ability to experiment the strategy.

CO3: Ability to frame an innovative accountability.

CO4: Ability to pivot, accelerate and grow the startup’s.

18ISCNPEEB - E-BUSINESS

CO1: Demonstrate knowledge of digital business and e-commerce.

CO2: Ability to develop digital business infrastructure.

CO3: Demonstrate digital business strategies.

CO4: Implementation of digital business and optimization.

18ISCNPEBA - BUSINESS ANALYTICS

CO1: Apply the knowledge of data analytics.

CO2: Mastery in data visualization tools to make effective analytics.

CO3: Demonstrate the ability to statistical methods on business

data.

CO4: Mastery the utilization of different kind of regression models on

business data.

CO5: Apply data mining techniques to extract the hidden data.

18ISCNPEKM - KNOWLEDGE MANAGEMENT

CO1: Demonstrate knowledge of Strategic knowledge management

process.

CO2: Demonstrate the knowledge management culture.

CO3: Ability to build knowledge infrastructure.

CO4: Ability to develop an effective knowledge service.

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

Name of the Programme B.E. in Electronics & Instrumentation Engineering

Programme Specific 1. Ability to apply the concepts of data acquisition, signal
Outcomes (PSOs) conditioning, control and communication in the field of
electronics and instrumentation.
2. Ability to simulate, analyse and interpret Analog/Digital
circuit designs related to applications of Automation and control
using modern engineering tools.
3. Ability to apply the knowledge of PLC, SCADA and DCS with
industrial networking protocols for process industries.
Programme Outcomes PO1: Engineering Knowledge: Apply the knowledge of
(POs) mathematics, science, engineering fundamentals, and an
PO1 to PO12 engineering specialization to the solution of complex
engineering problems.
PO2: Problem analysis: Identify, formulate, research
literature, and analyse complex engineering problems reaching
substantiated conclusions using first principles of mathematics,
natural sciences, and engineering sciences.
PO3: Design/development of solutions: Design solutions for
complex engineering problems and design system components
or processes that meet the specified needs with appropriate
consideration for the public health and safety, and the cultural,
societal, and environmental considerations.
PO4: Conduct investigations of complex problems: Use
research-based knowledge and research methods including
design of experiments, analysis and interpretation of data, and
synthesis of the information to provide valid conclusions.
PO5: Modern Tool Usage: Create, select, and apply
appropriate techniques, resources, and modern engineering
and IT tools including prediction and modelling to complex
engineering activities with an understanding of the limitations.
PO6: The Engineer and Society: Apply reasoning informed by
the contextual knowledge to assess societal, health, safety,
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

legal, and cultural issues and the consequent responsibilities

relevant to the professional engineering practice.
PO7: Environment and Sustainability: Understand the
impact of the professional engineering solutions in societal and
environmental contexts, and demonstrate the knowledge of
need for sustainable development.
PO8: Ethics: Apply ethical principles and commit to
professional ethics and responsibilities and norms of the
engineering practice.
PO9: Individual and Team Work: Function effectively as an
individual, and as a member or leader in diverse teams, and in
multidisciplinary settings.
PO10: Communication: Communicate effectively on complex
engineering activities with the engineering community and with
society at large, such as, being able to comprehend and
write effective reports and design documentation, make
effective presentations, and give and receive clear instructions.
PO11: Project Management and Finance: Demonstrate
knowledge and understanding of the engineering and
management principles and apply these to one‟s own work, as
a member and leader in a team, to manage projects and in
multidisciplinary environments.
PO12: Life-long learning: Recognise the need for, and have
the preparation and ability to engage in independent and life-
long learning in the broadest context of technological change
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

ELECTRONICS AND INSTRUMENTATION ENGINEERING

COURSE OUTCOMES
ADVANCED ENGINEERING MATHEMATICS-15MA3GCADM
CO1: To Obtain numerical solution a system of algebraic equations, algebraic
CO 1:- and transcendental equations and ordinary differential equations.
CO2: To Formulate boundary value problems involving one dimensional heat
CO 2:- and wave equation.
CO3: To Solve partial differential equations with appropriate boundary
CO 3:- conditions using the method of separation of variables.
CO 4:- CO4: To Construct analytic functions and simple conformal mappings.
CO 5:- CO5: To Evaluate real and complex integrals using the calculus of residues.
Linear Circuit Analysis-15ES3GCLCA
CO1: Analyse the basic principles of various networks connected in different
CO 1:- fashions and solve them. (PO1) H
CO 2:- CO2 :Analyse various theorems and apply to various circuits.(PO1)H
CO3 :Apply the knowledge acquired about 2 port parameters and analyse the
relationship between various parameters and apply to various types of
CO 3:- networks.(PO2)H
CO4 :Analyse the transient and steady state responses of the networks using
CO 4:- the knowledge o Laplace transformations. (PO1)H,(PO2)M
CO5 :Apply the frequency response and network topology concepts for various
CO 5:- types of networks.(PO1)H (PO2)L
CO6 : Apply the knowledge acquired and make an effective oral presentation
CO 6:- and written on Linear circuits.

ANALOG MICROELECTRONIC CIRCUITS-15ES3GCAMC

CO1: Ability to define, understand and explain the structure, V-I characteristics,
working and applications of analog electronic devices like diodes, Bipolar
CO 1:- Junction Transistors (BJTs) and MOSFETs
CO2 :Ability to apply the knowledge of KVL and KCL to obtain
voltage/current/waveforms at different points in analog electronic circuits such
as diode clippers, clampers, amplifiers using Bipolar Junction Transistors (BJTs)
and MOSFETs, current sources, current mirrors, power amplifiers, feedback
CO 2:- amplifiers
CO3 :Ability to analyze analog electronic circuits such as diode clippers,
clampers, amplifiers using BJTs and MOSFETs, current sources, current mirrors,
power amplifiers, feedback amplifiers etc. to obtain voltage /current/waveform
CO 3:- at different points for given specifications
CO4:Ability to design analog electronic circuits such as diode clippers, clampers,
amplifiers using BJTs and MOSFETs, current sources, current mirrors, power
CO 4:- amplifiers, feedback amplifiers for given specifications
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

CO5:Ability to conduct experiments using analog electronic components and

electronic instruments to function as switch, regulator, clippers, clampers, small
CO 5:- signal amplifiers, oscillators, power amplifiers
CO6:Ability to engage in self-study/independent study to formulate, design,
implement, analyze and demonstrate an application using analog electronic
CO 6:- components through an open ended experiment
CO7:Ability to engage in self-study/independent study to submit a seminar
CO 7:- report
Digital Electronics- 15ES3GCDEC
CO1:Ability to understand, define and explain the fundamental concepts of
CO 1:- Digital circuits
CO2:Ability to apply the knowledge of digital circuit concepts (Boolean Algebra,
K-Maps and Quine-McClusky method) to optimize a digital circuit for the given
CO 2:- parameter (number of gates, time delay, power consumption, cost)
CO 3:- CO3:Ability to analyze digital circuits and arrive at suitable conclusions
CO 4:- CO4:Ability to design a digital circuit for given specifications
CO5:Ability to conduct experiments using digital ICs for a given
CO 5:- application/problem statement
CO6:Ability to engage in self-study to formulate, design, implement, analyze
and demonstrate an application of digital electronic circuits through an open
CO 6:- ended experiment
CO7:Ability to engage in self-study to deliver a seminar on topics related to the
CO 7:- course accompanied by a seminar report
MEASUREMENTS AND INSTRUMENTATION- 15EI3DCMSI
CO1: Ability to define the performance characteristics and explain the concepts
CO 1:- of electrical & electronic instruments used for measuring electrical quantity.
CO2: Ability to derive the balance equations of DC / AC bridges and apply the
CO 2:- same to find unknown values of R, L, C.
CO 3:- CO3: To understand the classification of sensors and their applications.
CO4: To understand the functional operation of oscilloscopes, signal analyzers
CO 4:- and its applications.
CO 5:- CO5: Identify, formulate and solve problems related to measurements.
SIMULATION TECHNIQUES- 15EI3DCLST
CO1: Navigate the MATLAB user interface, enter commands, Create access,
CO 1:- modify, perform calculations, and visualize matrix data and customize plots.
CO2: Ability to import data from files, write and debug scripts and create
CO 2:- functions.
CO 3:- CO3: To explore the use of Simulink in design and analyzing models.
CO4: Ability to identify, select and analyze electric circuits by performing
CO 4:- simulations using PSpice.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

Control Systems-15ES4GCCST
CO1:To define, explain concepts of open, closed loop control systems and
CO 1:- compensators.
CO2:Apply the knowledge of engineering fundamentals to form mathematical
CO 2:- model of a system.
CO3:Apply the knowledge of engineering fundamentals to deduce transfer
CO 3:- function of electrical, mechanical and electromechanical system.
CO4:To study, analyse and/or design a LTI system in time domain for given
CO 4:- specifications with or without controllers.
CO5:To investigate the stability and analyse the behaviour of a given LTI
CO 5:- system using RH criterion and root locus technique.
CO6:To study, investigate and/or design a LTI system stability using frequency
CO 6:- domain techniques.
CO7:To analyse the behaviour of a given LTI system using modern simulation
CO 7:- tool and communicate effectively with presentations and reports.
Analog integrated circuits-15EI4DCAIC
CO1: Ability to define, understand and explain the DC and AC performance
characteristics of Opamp, applications of Opamp, working of 555 timer and
CO 1:- voltage regulators.
CO2: Ability to apply the knowledge of KVL and KCL to obtain voltage
/current/waveform at different points in analog electronic circuits such as
Opamp amplifiers, rectifiers, filters, waveform generators, PLL, data converters,
CO 2:- regulators, comparators ,555 timers
CO3: Ability to analyze analog electronic circuits such as Opamp amplifiers,
rectifiers, filters, waveform generators, PLL, data converters, regulators,
comparators ,555 timers etc.to obtain voltage /current/waveform at different
CO 3:- points that meet desired specifications .
CO4:Ability to design analog electronic circuits such as Opamp amplifiers,
rectifiers, filters, waveform generators, PLL, data converters, regulators,
CO 4:- comparators ,555 timers etc. that meet desired specifications
CO5: Ability to conduct experiments using analog electronic components,
electronic instruments to function as amplifiers, comparators, rectifiers, filters,
CO 5:- astable and monostable circuits using 555 ,data converters
CO6: Ability to engage in self-study/independent study to formulate, design,
implement, analyze and demonstrate an application using analog electronic
components/ASLK/Multisim through a mini-project and submit the mini-project
CO 6:- and make an oral presentation of the work
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

Discrete Mathematics and Probability- 15MA4GCDMP

CO 1:- CO1: Understand the notation of set theory, relations and functions.
CO2: Construct a Hasse diagram for partial orderings, Use many terms associated
CO 2:- with graphs and prove whether two graphs are isomorphic.
CO3: Obtain the probability of an event using discrete and continuous
CO 3:- distributions, including the n-step transition probability.
CO 4:- CO4: Analyse and classify simple states (recurrent/transient).
CO5: Understand, derive and apply the properties of the M/M/m queuing model
(properties like stationary probability, average waiting and system time, expected
CO 5:- number of customers in the queue).
MICROCONTROLLERS-15ES4GCMCS
CO1: Ability to understand and explain computer based and memory based
architecture, microcontroller, pipelining, addressing modes, data types in
Embedded C, basics of serial communication, timer configuration and interrupt
CO 1:- handling.
CO2: Ability to calculate instruction execution time, delay, baud rate, and write
assembly and C Code, identify the timer mode, serial communication mode and
CO 2:- interrupt priorities
CO 3:- CO3: Ability to debug/ analyze the code in assembly as well as Embedded C.
CO4: Ability to identify the IDE to conduct experiments by simulating, debugging
CO 4:- and executing the assembly and Embedded C code
CO5: Ability to engage in independent study/ self-study by preparing a 5 min
video on „Applications of Microcontrollers for health, safety, environment and
CO 5:- society.
CO6: Ability to work as an individual and as a team-member to design, formulate
and implement experiments using microcontroller through conduction of an Open-
CO 6:- Ended experiments.
SIGNALS AND SYSTEMS-15ES4GCSAS
CO1: To apply the knowledge of mathematics and engineering to analyze signals
CO 1:- and obtain the response of continuous and discrete time systems.
CO2: Analyze Continuous Time and Discrete Time signals and systems in
CO 2:- Frequency domain using Fourier analysis tools like CTFS, CTFT, DTFS and DTFT.
CO 3:- CO3: Analyze Discrete Time systems using Z-transforms.
PCB Design- 15EI4DCLPD
CO1: Model, design, analyze and simulate electronic circuit using circuit
CO 1:- simulation tools, for the given system specification.
CO 2:- CO2: Transfer the circuit from circuit simulation tool to PCB design tool
CO 3:- CO3: Design and develop PCB layout using PCB design tool
CO4: Develop skills such as component selection, soldering, etc required for
CO 4:- designing printed circuit boards
CO5: To convert an idea into a successful project and to build a prototype as an
CO 5:- industrial product
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

PROCESS CONTROL-16EI5DCPCS
CO1: Ability to define, Understand the basic principles, use of block diagrams &
design of process control systems also to understand the importance of process
control in industrial process plants and apply engineering knowledge to do
CO 1:- problem analysis in process control.
CO2:Ability to Apply the knowledge of process control , P&ID (Process &
Instrumentation Diagrams) & devise simple but effective plant wide control
CO 2:- strategies using appropriate heuristics.
CO3 :Ability to analyze controllers by Selecting the proper discontinuous/
CO 3:- continuous controllers for a particular application related to process control.
CO4:Ability to Design, interpret and implement tuning of the controllers using
CO 4:- various methods and study about digital controllers and data loggers.
CO5:Ability to conduct experiments to demonstrate concepts related to process
CO 5:- control using suitable electronic components and Engineering Tools.
CO6 :Ability to engage in self –study to formulate, design, implement,
analyse and demonstrate an application using process control components
through mini projects which leads to team work addressing the safety and
environmental aspects , and which also focuses on societal and environmental
CO 6:- friendly projects.
SENSORS AND TRANSDUCERS-16EI5DCSET
CO1: Understand the fundamental characteristics, terminologies, sensing and
CO 1:- transduction principles of various types of transducer /sensors.
CO2: Understand fundamentals of fluid flow and their applications to flow through
CO 2:- pipes and hydraulic machines.
CO3: Understand various techniques used for measuring parameters of
CO 3:- temperature measurement in Industries.
CO4: Understand the principles of industrial processes & process in pressure
CO 4:- measurement
CO5: Understand the different types of force & level measurements adopted in
CO 5:- industrial
CO6: Understand the fundamental characteristics, terminologies, sensing and
CO 6:- transduction principles of various types of transducer /sensors.
DIGITAL SIGNAL PROCESSING-16EI5DCDSP
CO1: To apply knowledge of Mathematics and Engineering to understand
Sampling and Reconstruction of signals from the given samples.
CO 1:-
CO2: An ability to identify and analyze a problem and formulate the computing
requirements to determine the DFT of the given signals.
CO 2:-
CO3: An ability to implement the processes of FFT to reduce the computational
complexity and to increase the speed.
CO 3:-
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

CO4: An ability to understand and formulate algorithms using the Multirate signal
processing for sampling rate conversion in speech signal analysis.
CO 4:-
CO5: An ability to use current techniques and modern tools to improve the
Medical data analysis.
CO 5:-
ELECTRO MAGNETIC FIELD THEORY-16EI5DCMFT
CO1: Ability to define, understand, and explain concepts on electrostatics
and magneto statics, Time varying fields and Maxwell’s equations,
CO 1:- Electromagnetic compatibility and Electromagnetic interference.
CO2: Ability to apply various properties/ laws/theorems/ Maxwell’s equations of
electrostatics, magneto statics to solve/derive examples in different media of time
CO 2:- varying fields.
CO3:Ability to analyze the given specifications of static and time varying
Electric, Magnetic fields in various configurations/ distributions
CO 3:-
CO4: Ability to make an effective oral presentation / report writing on
Electromagnetic fields , radiation hazards, effect on environment, EMI and EMC
concepts.
CO 4:-
COMMUNICATION SYSTEMS-16EI5DCCST
CO1:To define, understand and explain the concept of modulation, demodulation,
figure of merit ,sampling, quantization, multiplexing
CO 1:-
CO2: To apply the knowledge of basic systems to articulate the building blocks
of the given analog/digital communication system and derive figure of merit for
the system.
CO 2:-
CO3: To analyze interaction among various blocks of a given analog/digital
communication system to obtain waveform at different points for given
specifications and obtain noise performance parameters.
CO 3:-
CO4: To design and decide the modulators, demodulators, sampling rate, type of
encoding for given specifications of analog/digital communication system
CO 4:-
CO5: To simulate the modulator-demodulator for the given analog/digital
communication system using modern tools
CO 5:-
LASER AND OPTICAL FIBER INSTRUMENTATION-16EI5DE1OI
To apply the basic science fundamentals in understanding the principles,
CO 1:- characteristics and construction of various types of Lasers and Optical fibres
To apply and analyze the basic engineering principles in understanding the
CO 2:- basic instrumentation principle using different type of Laser and optical fibres
To comprehend the use of optical fibre sensors and detectors for measurement
CO 3:- of various Analytical parameters
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

Ability to engage in effective written and Oral communication through the

report/poster by taking a case study/ literature paper review/ICT videos in the
CO 4:- Industrial applications of optical fiber sensors or lasers.
POWER ELECTRONICS-16EI5DE1PE
CO1:Identify the need for efficient conversion and control of electrical energy to
match the load requirements
CO 1:-
CO2: Comprehend the characteristics of practically available Power Electronics
devices.
CO 2:-
CO3: Analyze different types of converters such as AC to DC, DC to AC, DC to DC
and comprehend their steady state behavior.
CO 3:-
OOPS USING C++ 16EI5DE1CP
CO1: To differentiate between Procedure Oriented and Object Oriented
Programming, benefits, understand the fundamental concepts, develop
programming skills.
CO 1:-
CO2: To develop programs using OOP concepts to provide solutions to an
engineering problem.
CO 2:-
CO3: To understand and explain the benefits of operator overloading, inheritance
and pointers in program development.
CO 3:-
CO4: To explain the use of templates, stream and stream classes to implement
input-output operations.
CO 4:-
CO5: To understand and discuss storing, retrieving data from files, file and
exception handling.
CO 5:-
FUNDAMENTALS OF HDL - 16EI5DE1HD
CO1: To learn the role of HDL in digital system design using latest tools like VHDL
and Verilog.
CO 1:-
CO2: To Describe and test digital logic circuits in data flow description, structural
description, behavioral description and advanced constructs (procedures, tasks,
functions) using both VHDL and Verilog.
CO 2:-
CO3: To Apply the overall knowledge of digital circuit design using HDL for gate
level synthesis targeted for FPGA /CPLD as preparation for project work.
CO 3:-
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

DATA ACQUISITION AND VIRTUAL INSTRUMENTATION-16EI6DCDVI

CO1: Ability to Apply, Analyze and Comprehend the structured programming
concepts in developing VI programs and employ various debugging
CO 1:- techniques.
CO2: Ability to Identify and comprehend various built in analysis functions and
CO 2:- communication protocols to process the data.
CO3: Ability to identify Elements of Data acquisition for Software and hardware
CO 3:- installation and Create applications that uses plug in DAQ boards
CO4:.Ability to design, Create and Simulate various virtual Instrument
CO 4:- applications.
CO5: Ability to develop programs/conduct experiments using the basic
elements like control statements, Arrays, clusters, Strings and File I/O
CO 5:- functions
CO6: Ability to engage in independent learning, submit a report/poster in
designing, implementing, analyzing and demonstrating an application
CO 6:- using tools in available in LabVIEW through an open ended experiment.
ALGORITHMS AND SYSTEM DESIGN-16EI6DCASD
Recognize and apply the fundamentals of fixed and floating point architectures of
CO 1:- various DSPs
Learn the architecture details , instruction set of floating point DSP and analyze
CO 2:- their requirements in bringing out real time solutions
CO 3:- Infer about the control instructions, interrupts, and pipeline operations.
Illustrate the features of on-chip peripherals and its interfacing along with
CO 4:- programming details.
Learn the DSP programming tools and apply them for real time problems and
CO 5:- present the solutions in a team as self-study component
Analyze and learn to implement the signal processing algorithms in DSPs to
CO 6:- design systems
Design and implement signal processing modules using DSP processor and
CO 7:- peripherals
SIGNALING AND COMMUNICATION IN PROCESS AUTOMATION-16EI6DCSAC
CO1: Ability to Define, understand and explain concepts of network on the
basis of various network parameters and protocols and to give overview of OSI-
ISO and TCP/IP network models in industrial data communication systems.
CO 1:-
CO2: Ability to apply the knowledge of inter-networking and to provide
fundamental understanding of common principles, various standards and
protocols.
CO 2:-
CO3: Ability to analyze the architecture and the protocols HART, field bus and
profibus of industrial data networks and they can apply the knowledge acquired in
CO 3:- industrial automation.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

CO4: Ability to design and develop an understanding of and be able to select

and use most appropriate technologies and standards for a given application
CO 4:- using Industrial ETHERNET and wireless communication.
CO5: Ability to make an effective written / oral presentation/report/
poster design with presentation individually or as team on standards,
protocols, case studies ,literature paper ,industrial automation, contribution to
CO 5:- society, impact on health, effect on environment.
ANALYTICAL INSTRUMENTATION-16EI6DCANI
To Acquire knowledge about the interaction of electromagnetic radiations with
matter and apply analytical techniques to accurately determine the elements
CO 1:- present in the given sample and various phenomenon related to it.
To apply and analyze the basic engineering principles in understanding the
CO 2:- basic instrumentation principle behind various spectroscopic methods.
identify and comprehend the working of various transducers in various
CO 3:- spectroscopic methods
Ability to investigations and analysis of different samples using different
CO 4:- analytical instruments
DIGITAL IMAGE PROCESSING -16EI6DE2DP
Ability to define, explain and understand pixels, enhancement, restoration,
segmentation, thresholding , identify steps ,components of Image processing
CO 1:- system, relation between pixels
CO2: Ability to discuss algorithms used for image enhancement in spatial and
CO 2:- frequency domain, restoration, segmentation, thresholding.
CO3: Ability to discuss performance of algorithms for image enhancement in
CO 3:- spatial and frequency domain, restoration, segmentation, thresholding
CO4: Ability to design and implement masks, algorithms for the given image
CO 4:- processing application
CO5:Ability to simulate the algorithms used in image processing using modern
CO 5:- tools
CONTROL SYSTEM COMPONENTS-16EI6DE2CC
Co1: identify and utilize the various components used in the process control
Loops
CO 1:-
Co2: understand the fundamental principles of working of various
Components used in Process loops
CO 2:-
Co3:design profiles for gears and cams based on control application
CO 3:-
Co4: differentiate between various components application, its usage,
Advantages and disadvantages
CO 4:-
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

DIGITAL SYSTEM DESIGN USING VHDL-16EI6DE2DD

CO1: Use of advanced programming concepts of VHDL and develop VHDL code to
CO 1:- model and simulate basic combinational networks and sequential machines.
CO2: Design combinational networks and sequential machines for PLA, PAL,
CO 2:- FPGAs and CPLD variants using SM chart based representation.
CO3: Design of functional blocks for arithmetic operations (adders, multipliers
and dividers) using the knowledge of combinational networks and sequential
CO 3:- machines.
CO4: Develop VHDL models for functional representation of memory element,
CO 4:- memory interfaces, communication bus and floating point operations.
CO5: Use of advanced programming concepts of VHDL and develop VHDL code to
CO 5:- model and simulate basic combinational networks and sequential machines.
BIOMEDICAL INSTRUMENTATION-16EI6DE2BM
CO 1:- CO1: Discuss basic performance requirements of medical instruments.
CO2: Describe the various Bio-Signal acquisition systems and relate to
CO 2:- physiological Parameters
CO 3:- CO3: Discuss the techniques for blood pressure measurement.
CO 4:- CO4: Understand types of pace makers and defibrillators.
CO5: Understand safety measures in a medical instrument design and signal
CO 5:- transmission in bio telemetry
OPERATING SYSTEM-16EI6DE2OS
CO1: understand types of OS, fundamental concepts, techniques used in the
CO 1:- execution of programs.
CO2: understand and explain the different techniques being employed in
CO 2:- scheduling and memory allocation.
CO3: understand and discuss page replacement policies and the way computers
CO 3:- stores files on disk
CO 4:- CO4: explain message passing, deadlock detection, resolution and prevention.
CO5: understand and discuss the protection system for computer system
CO 5:- resources.
Fundamentals of VLSI-16EI7DCFVI
CO1: Describe the fabrication process and analyze the basic electrical properties
CO 1:- of MOS circuits.
CO2: Analyze the CMOS layout levels, how the design layers are used in the
CO 2:- process sequence, and resulting device structures (i.e. cross-sectional views).
CO3: Discuss the different types of inverters also Design and implement CMOS
circuits in silicon also to Implement digital logic designs of various types (i.e.
CO 3:- combinational logic, multiplexers).
CO4: Illustrate circuit diagrams, stick diagrams and layouts for nMOS, CMOS and
CO 4:- BiCMOS circuits. Explain design rules. Compare different technologies.
CO5: Analyze and design subsystems using structured approach for MOS
technologies and implementation of computational elements memories &
CO 5:- register circuits.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

AUTOMATION IN PROCESS CONTROL-16EI7DCAPC

CO1:Able to gain knowledge about the working of Data Loggers, DDC, SCADA,
CO 1:- DCS, PLC and its uses in solving engineering problems.
CO 2:- CO2: Able to apply the concepts of automation for various processes.
CO3:Able to analyze and formulate the requirements of appropriate ladder
CO 3:- programs to provide solutions using PLCs.
CO4: Able to design and apply program control, arithmetic, relay, data handling,
CO 4:- sequencer, timer and counter instructions in development of solutions
CO5: Able to select, design, apply, simulate and experiment appropriate
CO 5:- techniques to develop solutions for practical applications using modern tools.
CO 6:- CO6: Ability to pursue self-study to formulate, design, and select appropriate
programming techniques using PLC to automate a given process.
CO 7:- CO7: Ability to communicate with effective presentations and submit reports
Modern Control Theory-16EI7DCMCT
CO1: Ability to identify, categorize different types of non linearities and analyze
CO 1:- the behavior of nonlinear system using describing functions.
CO2: Able to represent and analyze given continuous and discrete time systems
CO 2:- in the state space form.
CO3: Ability to design and analyze the cascade compensators to meet the
CO 3:- required specifications using bode plot and root locus techniques.
INDUSTRIAL INSTRUMENTATION-16EI7DE3II
CO1:Study of Instrumentation and Control Systems used in various power
CO 1:- plants
CO 2:- CO2:Understand various standards and protocols used in different power plants
CO 3:- CO3:Discuss state of art technologies used in power sector
CO 4:- CO4: An ability to select and use latest technology tools for various processes
and systems.
CO 5:- CO5: Ability to understand of contemporary / emerging technology for various
processes and systems.
Aircraft instrumentation-16EI7DE3AI
CO1: : Ability to define, Understand qualitative and quantitative display as
per the basic T grouping and by giving importance to the aesthetics view of the
CO 1:- front panel of an aircraft.
CO2: Ability to Apply the knowledge of aircraft instrumentation concepts and
CO 2:- analyze the complexity and high functionality of air data instruments.
CO3: Ability to analyze and Design a match warning system, Altitude alerts
CO 3:- systems, Airspeed warning systems.
CO 4:- CO4: Ability to Describe and understand the operation of flight instruments
incorporating gyroscopes, basic flight indicators, sensors and its operating
principles and types of displays.
CO 5:- CO5: Ability to engage in effective written and Oral communication
through the report/poster by taking a case study/ literature paper review/
videos in aircraft instrumentation.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

REMOTE SENSING&TELEMETRY-16EI7DE3RT
CO 1:- CO1: Understand the basic of telemetry system.
CO 2:- CO2: Discuss the principles of remote sensing and its applications.
CO 3:- CO3:Analyse the various processing done for proper interpretation
COMPUTER VISION-16EI7GE2CV
CO1: Understand the principles general practices followed in image
CO 1:- mation
CO2:Analysis and selection of techniques of Feature extraction applied to
CO 2:- images
CO 3:- CO3:Classification of images using Parametric and non-parametric methods
CO 4:- CO4: Analyze and build prototypes of the motion dynamics using the modeling
techniques
CO 5:- CO5: Apply the image processing techniques for computational photography
MEMS and Sensors-16EI7GE2MS
CO1: To Analyze the theories and concepts of micro electro mechanical
systems.
CO 1:-
CO2: To comprehend the basic principles, working and identify type of
CO 2:- materials used for various types of micro sensors and actuators.
CO3: To Illustrate range of fabrication techniques used in microsystem design
and analytically describe different deposition techniques and identify different
CO 3:- effects occurring during depositions on various topographies.
CO 4:- CO4: To apply the basic engineering principles in understanding the scaling
effects in different physical principles related to microsystems.
CO 5:- CO5:Able to Comprehend the state-of-the-art of micromachining and
packaging technologies
CO 6:- CO6: To Engage in Independent learning in analyzing and demonstrating an
applications of MEMS devices through Case Studies/Literature review in the
form of report/poster
Project for Community Service-16EI7DCPCS
CO 1:- CO1: Do a survey and formulate a problem identified.
CO2: Apply a suitable engineering/IT tool for modeling/data
interpretation/analysis, conduct experiments leading to a logical solution of the
CO 2:- proposed problem.
CO 3:- CO3: Compare the proposed solution with other available alternatives.
CO 4:- CO4: Communicate effectively to a diverse audience trough presentations and
develop technical reports and publications

Automotive Instrumentation- 16EI7IE2AU

CO1: Know the working OPS, ABS, ACC and TCS in gasoline and diesel engines
CO 1:-
CO 2:- CO2: Analyze the architecture and role of electronic components in a vehicle
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

CO3: Determine the functions of control units and mechatronics in an

CO 3:- automobile engineering
CO 4:- CO4: Analyze the requirement of sensors and actuators for automobile
applications

CO 5:- CO5: Describe the working of various sensors used in automotive electronics
MICRO-SENSING NETWORKS FOR SUSTAINABLE CITIES-16EI8IEMNS
CO1: Understand the need for sustainable Engineering solutions for
Environmental framework.
CO 1:-
CO2: Analyze the requirements of sustainable development for different
CO 2:- Environmental context.
CO3:Develop solution by applying social, economic, Environmental
considerations
CO 3:-
CO 4:- CO4:Self-study on various cases and presentation of report and seminars
PROJECT MANAGEMENT AND FINANCE-16HS8DCPMF
CO1: Apply the Knowledge of project management principles and to implement
CO 1:- project management methodologies required for successful project completion
CO2: Develop Ethical principles in project planning and execution as a team
CO 2:- and documentation in project implementation.
CO 3:- CO3: Identify and Apply finance aspects for project implantation in time.
CO 4:- CO4: Use modern tools to simulate their respective projects and case studies
and investigate the behavior under various operating conditions.
Intellectual Property rights and cyber law-
Ability to apply ethical principle to obtain Intellectual property Rights like
CO 1:- Patents, Copyright & Trademarks
Understand the impact of Patents, Copyright & Trademarks and demonstrate
CO 2:- the knowledge of Cyber Law for the sustainable development
Apply concepts of IPR and Cyber Law to access societal, health, safety &
Cultural issues and continue responsibilities relevant to the professional
CO 3:- engineering practice
CO 4:- Ability to work in multiple teams to effectively communicate IP & Cyber Law
leading to improvement in team work and leadership qualities.
Major Project-16EI8DCMPJ
CO 1:- Demonstrate a sound technical knowledge of their selected project topic.
CO 2:- Undertake problem identification, formulation and solution
CO 3:- Design engineering solutions to complex problems utilising a systems approach.
CO 4:- Conduct an investigation in engineering project
CO 5:-
Interpret data to provide valid conclusion.
CO 6:- select appropriate techniques and simulate using modern tools
CO 7:- apply reasoning relevant to engineering practice
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF ELECTRONICS & INSTRUMENTATION ENGINEERING

Understand impact of engineering solutions in societal and environmental

CO 8:- context
CO 9:- Demonstrate the knowledge, skills and attitudes of a professional Ethics and
responsibilities applied relevant to engineering practice
CO 10:- Effective functioning as individual and in a team
Communicate with engineers and the community at large in written ,oral and
CO 11:- social learning platforms
Apply and use management principles for their work , team work and managing
CO 12:- the dependencies between tasks .
Exhibit ability to engage in life long learning in the perspective of technological
CO 13:- requirements of the project
Seminar Based on Internship/Industrial Training-16EI8DCSMR
CO1: Analyze and interpret data for complex systems.
CO 1:-
CO2: Select and apply modern engineering tools
CO 2:-
CO3: Communicate Effectively to an Audience, and design documentation
(written graphical and visual forms)
CO 3:-
CO 4:- CO4: Engage in independent learning
Operations Research-16EI8IE2OR
CO1 To be able to understand the fundamental concept and approach of linear
programming
appropriate to the further study of operations research and identify problems in
real life
CO 1:-
CO2 to be able to recognize and optimize the transportation and assignment
problems
CO 2:-
CO3 to be able to recognize and solve Queuing theory problems
CO 3:-
CO 4:- CO4 to be able to use network planning procedures for solving logistics
problems

CO 5:- CO5 to be able to recognize and solve Game theory problems

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

Name of the B.E. in Medical Electronics

Programme
Programme Specific
Outcomes (PSOs) 1. PSO1: Investigate, Implement and demonstrate various
applications of analog and digital electronic subsystems in
designing and building biomedical instrumentation systems.

2. PSO2: Specify, architect and prototype health-care solutions by

applying signal and medical image processing techniques on
modern hardware and software platforms.

3. PSO3: Design, develop and verify processes, algorithms and

computer programs for medical purposes.

Programme Engineering Graduates will be able to:

Outcomes (POs)
1. Engineering knowledge: Apply the knowledge of
mathematics, science, engineering fundamentals, and an
engineering specialization to the solution of complex
engineering problems.
2. Problem analysis: Identify, formulate, review research
literature, and analyze complex engineering problems reaching
substantiated conclusions using first principles of mathematics,
natural sciences, and engineering sciences.
3. Design/development of solutions: Design solutions for
complex engineering problems and design system components
or processes that meet the specified needs with appropriate
consideration for the public health and safety, and the cultural,
societal, and environmental considerations.
4. Conduct investigations of complex problems: Use
research-based knowledge and research methods including
design of experiments, analysis and interpretation of data, and
synthesis of the information to provide valid conclusions.
5. Modern tool usage: Create, select, and apply appropriate
techniques, resources, and modern engineering and IT tools
including prediction and modeling to complex engineering
activities with an understanding of the limitations.
6. The engineer and society: Apply reasoning informed by the
contextual knowledge to assess societal, health, safety, legal
and cultural issues and the consequent responsibilities relevant
to the professional engineering practice.
7. Environment and sustainability: Understand the impact of
the professional engineering solutions in societal and
environmental contexts, and demonstrate the knowledge of,
and need for sustainable development.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

8. Ethics: Apply ethical principles and commit to professional

ethics and responsibilities and norms of the engineering
practice.
9. Individual and team work: Function effectively as an
individual, and as a member or leader in diverse teams, and in
multidisciplinary settings.
10. Communication: Communicate effectively on complex
engineering activities with the engineering community and with
society at large, such as, being able to comprehend and write
effective reports and design documentation, make effective
presentations, and give and receive clear instructions.
11. Project management and finance: Demonstrate knowledge
and understanding of the engineering and management
principles and apply these to one’s own work, as a member and
leader in a team, to manage projects and in multidisciplinary
environments.
12. Life-long learning: Recognize the need for, and have the
preparation and ability to engage in independent and life-long
learning in the broadest context of technological change.

Course Outcomes
(COs) Course Course code Course Outcomes
ODD sem 2018
Advanced 15MA 3GC CO1: Obtain numerical solution a
Engineering ADM system of algebraic equations,
Mathematic algebraic and transcendental
s equations and ordinary
differential equations.

CO2: Formulate boundary value

problems involving one
dimensional heat and wave
equation

CO3: Solve partial differential

equations with appropriate
boundary conditions using the
method of separation of variables

CO4: Construct analytic functions

and simple conformal mappings.

CO5: Evaluate real and complex

integrals using the calculus of
residues.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

Linear 15ES 3GC LCA CO-1: Ability to apply the

Circuit knowledge of engineering and
Analysis mathematical concepts to solve
AC & DC networks.

CO2: Ability to identify & apply

suitable technics & theorems for
network reduction simplification
of different electrical networks.

CO3: Ability to apply concept of

laplace transform to analyse the
transient behavior of networks.

CO4: Ability to evaluate the

electrical current using modern
tools & document the same.
Analog 15ES 3GC CO1: Define, understand and
Microelectro AMC explain the structure, V-I
nics characteristics, working and
applications of analog electronic
devices like diodes, Bipolar
Junction
Transistors(BJTs) and MOSFETs

CO2: Apply the knowledge of KVL

and KCL to obtain voltage
/current / wave format different
points in analog electronic
circuits such as diode clippers,
clampers, amplifiers using BJTs
and MOSFETs, current sources,
current mirrors, power amplifiers,
feedback amplifiers

CO3: Design and analyse

electronic circuits such as diode
clippers, clampers,amplifiers
using BJTs and MOSFETs, current
sources, current mirrors, power
amplifiers, feedback amplifiers
forgiven specifications.

CO4: Design analyse and

Conduct experiments using
analog electronic components
and electronic instruments to
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

function as switch, regulator,

clippers, clampers,
small signal amplifiers,
oscillators, power amplifiers

CO5: Engage in self-

study/independent study to
formulate, design, implement,
analyze and demonstrate an
application using analog
electronic components through
an openended experiment
Digital 15ES 3GC DEC CO1: Apply the knowledge of
Electronics mathematics and engineering
fundamentals to solve complex
digital circuits.

CO2: Analyze digital circuits and

arrive at suitable conclusions.

CO3: Design a digital circuit for

given specifications

CO4: Design a digital circuit and

Conduct experiments using
modern tools.

CO-5: Engage in self-study to

formulate, design, implement,
analyze and demonstrate an
application of digital electronic
circuits through an open ended
experiment

Introductio 15ML 3DC HAP CO1: Acquire basic anatomical

n to Human knowledge of the human being
Anatomy with particular detail in the
and musculoskeletal, nervous,
Physiology endocrine, cardiovascular, and
respiratory systems.

CO2: Understand systems

physiology and health issues in
relation to muscular, nervous,
endocrine, and cardiovascular
and respiratory systems.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO3: Listen and comprehend

audio/video lectures related to
the course using modern tools
and assimilate this knowledge to
aid the development of
engineering systems
Biomedical 15ML 3 DC CO1: Understand the basics of
Ethics & BSM the biomedical signals
Standards
CO2: Understand the concept
about ECG, EMG and EEG

CO3: Ability to Simulate the

biomedical signals using software
tool and analyze the same
Embedded 16ML5GC ESD CO1: characterize embedded
System systems, identify and develop
Design schemes to program peripherals
and interface external devices.

CO2: Design program models by

applying knowledge of
multitasking principles, use
techniques to achieve and
evaluate real time performances
in embedded system design.

CO3: Select, and apply

appropriate technique to conduct
and analyse experiments in
embedded system design.

CO4: Work in a team to explore

research based knowledge to
conceptualize and present
ideas in biomedical embedded
system design within realistic
constraints such as
environmental, social, ethical,
health and safety, and
sustainability.
Biomedical 16ML5DC BMI CO1: Apply knowledge of
Instrument mathematics science and
ation engineering fundamentals in
designing, analyzing and/or
working of biomedical circuits
and instruments.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO2: Understand the health,

safety, Environmental, legal and
ethical issues while
designing/working of a
biomedical circuits and
instruments.

CO3: Work, document and

present as an individual and as a
team-member to design,
formulate and implement
experiments using modern
equipment's & tools.

CO4: Present in a group and

document the findings or
suggestions for the problems in
the current techniques, modern
tools and computing practice to
improve technology in health
care instruments through
hospital visits for lifelong
learning.
Biomechani 16ML5DC BMR CO1: Ability to apply knowledge
cs and of mathematics, science and
Rehabiliatio engineering to understand the
n fundamentals of moving systems
and familiarity with human
anatomy to competently analyze
the movement of the human
body.

Co2: Ability to analyze the

dynamics of human movement
flow properties of blood and
comprehend the biomechanical
principles that relate to
movement and communication
disabilities.

CO3: Ability to discuss, develop

and apply the principles of
biomechanics to a range of
rehabilitation strategies and
problem solving.
Digital 16ML5DC DSP CO1: To apply knowledge of
Signal Mathematics and Engineering to
Processing understand Sampling and
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

Reconstruction of signals from

the given samples.

CO2: An ability to identify and

analyze a problem and formulate
the computing requirements to
determine the spectrum of the
given signals.

CO3: An ability to implement the

processes of FFT to reduce the
computational complexity and to
increase the speed and to
attenuate noise.

CO4: An ability to understand

and formulate algorithms using
the Multirate signal processing
for sampling rate conversion in
signal analysis and transmission.

CO5: An ability to use current

techniques and modern tools to
improve the Medical data
analysis.
Medical 16ML5DC MDP CO1: Apply the knowledge of
Physics mathematics, science and
engineering to understand the
concepts of Human Physiology

CO2: Identify and analyze a

problem related to physics in
heat, energy, work, power,
pressure, sound and light applied
to human body

CO3: Understand the health and

safety issues through physics
concepts applied to human body
CO4: Function and engage in
communicating the recent trends
in medical Physics.
Oops with 15ML5DE1 OP CO1: Able to differentiate
C++ for between structure oriented
Medical programming and object oriented
Application programming and use object
oriented programming language
like C++ and associated libraries
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

to develop object oriented

programs for handling Medical
data

CO2: Ability to identify, analyze

and apply the concepts of
classes, Objects and other
advanced OOPs concepts like
inheritance, data abstraction,
encapsulation, operator
overloading, functions,
polymorphism, exception
handling for Medical data
management

CO3: ability to formulate, design,

implement, analyze,
demonstrate, document and
present the concepts as
application to healthcare
implemented in groups or
individual.
Medical 16ML 7DC MDT CO1: Understand and apply
Device modern software testing
Testing on processes in relation to software
Substainabil development and testing.
tiy
CO2: Implement test strategies
and plans, design test cases,
prioritize and
execute them.

CO3: Apply testing protocols for

Medical devices and analyze
preventive maintenance
measures for sustainability.

CO4: Apply the concepts learnt

to device testing and
maintenance of specific medical
device in a group, record and
present.
Clinical 16ML 7DC CDA CO1: Ability to apply knowledge
Data of mathematics, science and
Analytics Engineering to develop the
solution using biostatistical
concepts.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO2: Ability to analyse a problem

and formulate appropriate
solution for biostatistical
concepts application.

CO3: An ability to design and

perform statistical test and
interpret results

CO4: Ability to implement and

demonstrate statistical analysis
using modern tool usage.

CO5: Implement the concepts

practically in group perform an
open ended experiment /min
project and document the same.
Biomedical 16 ML 7DE CO1: Apply the knowledge of
Circuits 2VM mathematics and engineering
with VLSI fundamentals to understand
MOSFETs.

CO2: Analyze VLSI circuits and

arrive at suitable conclusions.

CO3: Design VLSI circuits for

given specifications.

CO4: Design VLSI circuits for

biomedical applications.
Even sem 2019
Discrete 15MA4GC DMP CO1: Understand the notation of
Math & set theory, relations and
Probability functions.

CO2: Construct a Hasse diagram

for partial orderings, Use many
terms associated with graphs and
prove whether two graphs are
isomorphic.

CO3: Obtain the probability of an

event using discrete and
continuous
distributions, including the n-step
transition probability
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO4: Analyse and classify simple

states (recurrent/transient)

Analog 15ES4GCAIC CO1: Apply the knowledge of

Integrated electronic engineering
Circuits fundamentals to solve problems
requiring solutions based on
analog integrated circuits

CO2: Analyze and interpret DC

and AC limitations of Operational
Amplifiers

CO3: Build and analyze

responses of analog integrated
circuits in the areas of power
sourcing, signal conditioning and
analog communication

CO4: Design and implement sub-

circuits of analog / mixed-signal
systems to meet the desired
specifications for linear and non-
linear applications

CO5: Reason and select analog

integrated circuit configurations
for optimum performance to
achieve sustainability

CO6: Work both independently

and in team to implement,
document and present
openended experiments and
projects built using analog
integrated circuits

Microcontrol 15ES4GC MCS CO1: Understand the concepts of

lers computer based and memory
based architecture,
microcontroller, pipelining
addressing modes assembly
programming, data types in
Embedded C and apply them in
problem analysis.

CO2: Understand and apply timer

configuration, basics of serial
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

communication, interrupt
handling and interfaces in
microcontroller based systems.

CO3: Debug/analyse the code in

assembly as well as Embedded C

CO4: Debug/ analyze the code in

assembly as well as embedded c

CO5-: Identify the IDE to conduct

experiments by simulating,
debugging and executing the
assembly and Embedded C code

CO6: Engage in independent

study/ self-study as an individual
and as a team member to
design, formulate and implement
an open ended experiment on
applications of microntroller for
medical electronics
Control 15ES4GCCST CO1: Obtain mathematical
Systems models of open loop and closed
loop physical systems

CO2: Apply mathematical

techniques to perform time
response analysis of a control
system

CO3: Carry out stability analysis

using different mathematical
techniques
Signals & 15ES4GCSAS CO1: Define, understand, and
Systems explain various types of signals
systems, their time and
frequency domain representation
and their realization.

CO2: Classify signals and

systems, obtain the output for
LTI systems using the time
domain and the frequency
domain representation, obtain
the frequency domain
representation of LTI systems
using various transforms.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO3: Analyse the given

specifications for systems for
causality, stability, linearity, time
invariance physical reliability.

CO4: Design LTI systems for the

given response specifications in
an efficient manner.

CO5: Make and effective oral

presentation or report writing on
contribution of signal processing
in various engineering aspects.
Biomedical 15ML4DC BES CO1: Understand the ethical
Ethics & properties, laws, history etc to do
Standards the right thing in Medical device
development

CO2: Act ethically after having

known the skills needed

CO3: Synthesize principles of

medical device regulatory
requirements, investigational
device exemptions & regulatory
submissions

CO4: Assess quality system

standards, procedures and
practices
Medical 16ML6DC MIP CO1: Understand and describe
Image digital image formation,
Processing relationship between pixels ,
color image processing, digital
image processing fundamentals,
and its application for medical
images.

CO2: Understand and apply

algorithms for image
enhancement, restoration,
segmentation and image
compression.

CO3: Identify, formulate and

solve problems by using the
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

algorithms in of digital image

processing.

CO4: Develop Graphical user

interface based mathematical
models to formulate and solve
problems for medical image
enhancement.

CO5: Conduct experiments for

medical image analysis.

CO6: Engage in independent

study/ self-study as an individual
and as a team-member to
design, formulate and implement
an open ended experiment to
develop a CAD tool
for medical image processing
application.
Bio-Medical 16ML6DCBSP CO1: Apply knowledge of
Signal mathematics, science and
Processing engineering to develop solutions
using biomedical signal
processing concepts

CO2: Analyze a problem and

formulate appropriate solution for
biomedical signal processing
concepts and applications

CO3: Design experiments in

biomedical signal and analyze
computer based process to
meet desired needs in
healthcare.

CO4: Work, document and

present as an individual and as a
team-member to design
formulate and implement
experiments using modern tools

CO5: Implement the concepts

practically in groups, perform an
open ended experiment/mini-
project. Present and document
the same.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

Bio- 16ML6DC BMA CO1: Apply knowledge of

Materials mathematics, science and
and engineering to understand the
Artificial features of biomaterials and the
Organs biocompatibility phenomena.

CO2: Understand the function

and relationship between the
structure and functionality
of chosen artificial organ

CO3: Comprehend an application

of membrane materials in
artificial organs and implants

CO4: Analyze technical, ethical,

economic, environmental and
legal problems and formulate
appropriate solution.
Medical 16ML6DC MDD CO1: Identify and analyse unmet
Device clinical need and its requirements
Developme to solve it.
nt
CO2: Search, analyse and
document clinical practice,
engineering science and relevant
literature in order to determine
the need for further research and
development in a chosen clinical
area.

CO3. Develop a sustainable

business plan, including market
overview, regulation strategies
for health & safety of individuals
and intellectual property (IP)
strategies.

CO4: Understand medical device

design engineering and
manufacturing process by
avoiding common quality pitfalls
in turn learning project
management.

CO5: Present the findings of the

research in a team to peer
audience
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

Medical 16ML6DCMIM CO1: Apply the knowledge of

Imaging mathematics, science and
Modalities engineering fundamentals to
the solutions of complex
problems using principles of
medical imaging.

CO2: Identify, formulate and

analyse a problem in medical
imaging applications to arrive at
substantiated conclusions using
Engineering sciences.

CO3: Select and apply

appropriate techniques,
resources through virtual flat
form IT tools including modelling
to complex engineering activities
with an understanding of the
limitations in the medical imaging
modalities.

CO4: Apply reasoning informed

by the contextual knowledge to
assess societal, health, safety,
legal, and cultural issues and the
consequent responsibilities
relevant to the medical image
modalities through hospital visit.

CO5: Apply the ethical principles

and understand the impact of the
professional engineering
solutions in societal, and
environmental contexts, through
the need for sustainable
development to health care
domain.

CO6: Communicate and write

reports in IEEE paper format
effectively with the engineering
community of health care domain
as a member and as an individual
in teams.
Project 16ML8DCPMF CO1: Apply the Knowledge of
manageme project management principles
and to implement project
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

nt and management methodologies

Finance required for successful project
completion

CO2: Develop Ethical principles in

project planning and execution as
a team and documentation
inproject implementation.

CO3: Identify and Apply finance

aspects for project implantation
in time.

CO4: Use modern tools to

simulate their respective projects
and case studies and investigate
thebehavior under various
operating conditions.
Intellectual 16HS8GCIPL CO1: Understand and analyze the
Property basic principles of IP laws.
rights &
Cyber Law CO2: Understand the basics,
procedure and specifications of
patents.

CO3: Learn the basics of copy

right and trade mark.

CO4: Understand the need and

necessity of Cyber law
SOC for 16ML8DE3SB CO1: Understand the
biomedical fundamentals of ASIC and its
applications design methods

CO2: Understand ASICs and

FPGAs, standard cells, cell
libraries, IPs.

CO3: To gain knowledge on

programmable architectures for
SOCs

CO4: Understand the role of

computer-aided design (CAD)
tools in automating the design
flow.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO5: To design a core from specs

to GDSII for biomedical devices.

Name of the M.Tech in Biomedical Signal Processing and Instrumentation

Programme
Programme 1. PEO1: Become successful professionals and leaders in the
Educational domains of Biomedical signal processing, Instrumentation and
Objectives (PEOs) allied fields of engineering.

2. PEO2: Engage in life-long learning processes through skill up

gradation, research and development activities.

3. PEO3: Contribute to concurrent technological

developments/changes, also demonstrating professional
ethics.

Programme 1. PO1:ability to independently carry out research /investigation

Outcomes (POs) and development work to solve practical problems

2. PO2: ability to write and present a substantial technical

report/document

3. PO3: Students should be able to demonstrate a degree of

mastery over the area as per the specialization of the program.
The mastery should be at a level higher than the requirements in
the appropriate bachelor program

Course Outcomes Course Course Course Outcomes

(COs) Code
ODD SEM 2018
Physiology 18MLBIPCPE CO1: apply basic concepts of
for physiology for engineering
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

Biomedical analysis of human physiological

Engineers systems
CO2: translate the understanding
of physiological functions into an
engineering model.

CO3: analyze and comprehend

the model as an engineering
solution.
Biomedical 18MLBIPCBA CO1: Apply the fundamental
Image concepts of Image processing for
Processing Biomedical Image analysis.
and Analysis
CO2: Conduct experiments for
medical image enhancement and
segmentation.

CO3: Implement open ended

experiments for medical image
analysis and prepare technical
document.
Advanced 18MLBIPCBI CO1: Apply the comprehensive
Biomedical knowledge of electronic
Instrumenta instrumentation techniques to
tion solve practical problems in the
domain.

CO2: Write and present a

significant technical report on a
medical equipment or its
functional element based on
literature survey.

CO3: Demonstrate skills to

develop solutions based on
multidisciplinary approaches for
the measurement of Physiological
parameters like ECG, EEG, EMG
and Pressure.
Real Time 18MLBIPERS CO1: Implement computationally
Bio Signal efficient algorithms on the DSP
Processing platform for bio signals.

CO2: Analyze real-time filter

structures for performance
evaluation using modern tools.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO3: Develop multirate signal

processing algorithms for real-
time bio signals as case study,
and present a technical report on
the same.
Digital 18MLBIPEDS CO1: Design, simulate and
System synthesize digital circuits with
Design using Verilog.
VERILOG
CO2: Evaluation of Digital circuits
using EDA tools.

CO3: Optimize the design for

different parameters.
Internship/In 16MLBIPCIN CO1: Ability to design a system,
dustrial component, or process to meet
Training desired needs within realistic
constraints such as economic,
environmental, social, political,
ethical, health and safety,
manufacturability, and
sustainability

CO2: Ability to use the

techniques, skills, and modern
engineering tools necessary for
biomedical engineering practice

CO3: Ability to function in multi-

disciplinary teams

CO4: Ability to make effective

presentation of the internship
work abiding professional ethics
and societal responsibility.

CO5: Ability to independently

engage in the improvement of
knowledge on contemporary
issues in the domain.
Project 16MLBIPCP1 CO1: Ability to apply knowledge
Phase- I to identify, gather information
and analyse to formulate the
unmet need and problem
definition for project through
survey for biomedical domain
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MEDICAL ELECTRONICS

CO2: Ability to use appropriate

tool/tools to implement and
demonstrate the project.

CO3:Ability to design, solve and

develop sustainable
solution/system for the
biomedical applications by
understanding group dynamics &
contributing to collaborative
project work and its management
at industry/institute

CO4: Ability to make effective

presentation of the work abiding
professional ethics as an
individual for lifelong learning.

CO5: Ability to develop systems

with scope for enhancement
through reflective learning.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Name of the Programme B.E. in Chemical Engineering

Programme Specific Outcomes PEO1: Graduates pursue profession in chemical & allied
(PSOs) engineering
PEO2: Graduates work in diversified team
PEO3: Graduates will pursue higher education & research
Programme Outcomes (POs) PO1 Engineering knowledge: Apply the knowledge of
mathematics, science, engineering
fundamentals, and an engineering specialization to
the solution of complex engineering problems
PO2 Problem analysis: Identify, formulate, review
research literature, and analyze complex
Engineering problems reaching substantiated
conclusions using first principles of mathematics,
natural sciences, and engineering sciences.
PO3 Design/development of solutions: Design
solutions for complex engineering problems and
design system components or processes that meet
the specified needs with appropriate consideration
for the public health and safety, and the cultural,
societal, and environmental considerations.
PO4 Conduct investigations of complex problems:
Use research-based knowledge and research
methods including design of experiments, analysis
and interpretation of data, and synthesis of the
information to provide valid conclusions
PO5 Modern tool usage: Create, select, and apply
appropriate techniques, resources, and modern
Engineering and IT tools including prediction and
modeling to complex engineering activities with an
understanding of the limitations.
PO6 The engineer and society: Apply reasoning
informed by the contextual knowledge to assess
societal, health, safety, legal and cultural issues and
the consequent responsibilities relevant to the
professional engineering practice.
PO7 Environment and sustainability: Understand the
impact of the professional engineering solutions in
societal and environmental contexts, and
demonstrate the knowledge of, and need for
sustainable development.
PO8 Ethics: Apply ethical principles and commit to
professional ethics and responsibilities and norms of
the engineering practice.
PO9 Individual and team work: Function effectively as
an individual, and as a member or leader in diverse
teams, and in multidisciplinary settings.
PO10 Communication: Communicate effectively on
complex engineering activities with the engineering
community and with society at large, such as, being
able to comprehend and write effective reports and
design documentation, make effective
presentations, and give and receive clear
instructions.
PO11 Project management and finance: Demonstrate
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

knowledge and understanding of the Engineering

and management principles and apply these to
one’s own work, as a member and leader in a team,
to manage projects and in multidisciplinary
environments.
PO12 Life-long learning: Recognize the need for, and
have the preparation and ability to engage in
independent and life-long learning in the broadest
context of technological change.
Course Outcomes (COs)

Subject Title Chemical Technology Credits 3

Sub Code 1 5 C H 3 D C C T N L-T-P-S 3 0 0 0
Course Outcomes
CO 1. Familiarize with processing & flow diagram for manufacture of organic and inorganic
chemicals.
CO 2. Comprehend the various unit operations & processes involved.
CO 3. Identify the engineering problems associated with the various processes.

Subject FLUID MECHANICS Credits 6

Title
Sub. Code 1 5 C H 3 D C F M E L-T-P-S 3 0 1 2

Course Outcome
CO1: Apply the concept of pressure and classify fluids based on shear stress & rate
relationships.
CO2: Apply basic equations of fluid flow.
CO3: Select relevant flow metering equipment and evaluate their performance.
CO4: Develop correlations between process variables using dimensional analysis.

Subject Title TECHNICAL CHEMISTRY Credits 4

Sub. Code 0 9 C Y 3 D C C E M L-T-P 3 0 1

Course Outcome
CO-1. Describe electronic displacement in organic molecules and reactive intermediates.
CO-2. Describe the reaction mechanism at molecular level in various chemical processes in
aliphatic and aromatic hydrocarbons.
CO-3. Describe active methylene and organometallic compounds and their synthetic utility.
CO-4. 1.Describe organochlorine and organophosphate insecticides, their preparation,
applications and limitations. Understand theories of color, techniques of application and synthesis
of some commercial dyes.
CO-5. Analysis of oils and fats and apply that knowledge to synthesize soaps and detergents.
CO-6. Apply various techniques of organic synthesis and estimation of organic compounds in
terms of the functional groups present in them.

Subject Title MECHANICAL OPERATIONS Credits 6

Sub. Code 1 5 C H 3 D C M O P L-T-P-S 3 0 1 2

Course Outcome
CO 1. Apply the basic working principles of different size reduction equipment for particle size
analysis
CO 2. Analyse the flow of fluids through bed of solids, calculate the pressure drop & friction
factor
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

CO 3. Familiarise with the different types of mixing, agitation and conveyance of solids and
estimate the power required
CO 4. Acquaintance of the principles of separating high value solids

Subject Title Material Science and Biomaterials Credits 2

Sub Code 1 5 C H 4 D C M S B L-T-P-S 2 0 0 0

Course Outcomes
CO 1: Understand structure of materials using crystal structure, elastic and plastic behavior.
CO 2: Analyze the physical and chemical properties of various materials through phase diagrams
and phase transformations by heat treatment methods.
CO 3: Select metals and biopolymers based on the properties for the specific applications.

SEMESTER IV Cluster CHEMICAL FOURTH SEMESTER B.E COURSE

(Common to all branches except for BT)
Course Name Engineering Mathematics-IV Course 11MA4ICMAT
Credits 04 L – T - P 3 -1- 0
Contact 52 hours (40L+12T)
hours
Course Outcomes
CO 1 Estimate the relation between two variables and perform regression analysis.
CO 2 Apply the basic principles of probability and probability distributions.
CO 3 Compute joint probabilities of two random variables
CO 4 Calculate transition probabilities using Markov chain
CO 5 Construct analytic functions and evaluate real and complex integrals. CO 6
Discuss series solution of ordinary differential equations

Subject Chemical Process Equipment Credits 2

Sub Code 1 5 C H 3 D C E Q D L-T-P 2 0 0

Course Outcomes
CO 1. Draw symbols of different equipment for process flow diagram.
CO 2. Visualize and draw different views of vessels and their components. CO 3. Draw
assembled sectional views of pumps and pipe fittings.
All units have only drawing component

Sub. Code PROCESS ENGINEERING Credits 4

THERMODYNAMICS
Sub. Title 1 5 C H 4 D C P T D L-T-P-S 3 1 0 0

Course Outcome
CO 1. Solve problems related to heat and work interactions using laws of thermodynamics
CO 2. Use ideal and real equations of state to establish fundamental properties of fluids.
CO 3. Establish VLE data using various correlations and verify the feasibility of reaction through
free energy calculations.

Sub. Code PROCESS HEAT TRANSFER Credits 6

Sub. Title 1 5 C H 4 D C H T R L-T-P-S 3 0 1 2

Course Outcome
CO 1. Modes of heat transfer with their governing laws.
CO 2. Heat flux calculations through constant & variable elements and optimum insulation
thickness.
CO 3. Functional design of heat transfer equipment.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Co4. Heat transfer Effectiveness, Efficiency and Economy.

Subject Process Principles and calculations Credit 4

Subject
1 5 C H 3 D C C P C L-T-P-S 3 1 0 0
code
Course Outcome
CO 1. Verify the unit consistency of equations and unit conversion.
CO 2. Formulate material and energy balance for processes involving single & multiple
components with &without reactions.
CO 3. Determine excess & limiting reactant, percentage conversion, extent and Selectivity of
reaction.

Subject Title INSTRUMENTAL METHODS OF ANALYSIS Credits 5

Sub. Code 1 5 C H 4 D C I M A L-T-P-S 2 0 1 2

Course Outcomes
CO1 : Apply the theoretical concepts behind the functioning analytical instrument
CO2 : Understand the impact, complexity of each instrument, its strength and its limitation
CO3 : Select the instruments based on appropriate criteria, analyses and interpret the
experimental data

SEMESTER V Cluster CHEMICAL

Subject CHEMICAL REACTION Credits 5

ENGINEERING-1
Sub.Code 1 5 C H 5 D C C R 1 L-T-P- 4 0 1
Course Outcomes S

CO 1. Develop rate equations for different reactions using suitable mechanism.

CO 2. Fit the experimental data to obtain the rate equation and also to find the performance
equation of ideal systems.
CO 3. Determine optimal ideal reactor design for multiple reactions & predict reactor
performance for non-isothermal conditions.

Subject MASS TRANSFER – 1 Credits 5

Sub.Code 1 0 C H 5 D C M T 1 L-T-P 4 0 1
Course Outcome
CO 1. Determination of diffusivities in fluids & solids and analogies amongst the transport
processes.
CO 2. Apply mass transfer fundamentals to calculate rates of mass transfer for various
operations.
CO 3. Get the knowledge of the principles of novel separation process.

Subject Pollution Control and Management Credits 3

Sub. Code 1 4 C H 5 D C P C L L-T-P 2 0 0

Course Outcome
CO 1. Identify the components of environmental eco systems and effect of pollutant on
environment.
CO 2. Characterize the various parameters for treatment of water, waste water as well as solid
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

waste from their sources.

CO 3. Recover and recycle the useful resources from the wastes by adopting advanced
techniques.
CO 4. Identify suitable equipments for abatement and control of air and noise pollution.

Subject CHEMICAL EQUIPMENT DESIGN Credits 4

Sub. Code 1 1 C H 5 D C C E D L-T-P 4 0 0

Course Outcome
CO 1. Realize the practical applications of basic engineering design principles.
CO 2. Select the suitable materials based on the process, environmental, economic & safety.
CO 3. Solve the numerical problems of various reaction/pressure vessel components.
CO 4. Estimation of sizing of pipes, pumps & storage vessel with its accessories.

Subject FOOD ENGINEERING Credits 4

Sub. Code 1 4 C H 5 D E L A 1 L-T-P 4 0 0

Course Outcome
CO 1. Comprehend the physical properties of food and its transportation.
CO 2. Identify sources of contaminants, adulterants with its prevention for safe and healthy food.
CO 3. Discern different technologies involved in food processing & preservation.
CO4: Select biocompatible packaging and additives for food products.

SEMESTER V Cluster CHEMICAL

Subject PETROLEUM REFINING Credits 4

Sub. Code 1 4 C H 5 D E L A 2 L-T-P 4 0 0

Course Outcome
CO 1. Infer & identify data of composition and thermal properties in refining and treatment of
petroleum.
CO 2. Familiarise with the different reforming techniques used for petroleum.
CO 3. Get acquainted with cracking processes to obtain desired product.

SEMESTER V Cluster CHEMICAL

Subject NANO TECHNOLOGY Credits 4

Sub. Code 1 4 C H 5 D E L B 1 L-T-P 4 0 0

Course Outcome
CO 1. Apprehend different instrumental techniques to characterize nanopartices for their
morphology and structure
CO 2. Select suitable fabrication techniques for synthesis of nanopartices, ferromagnetic
materials, quantum nanostructures, MEMS and NEMS.
CO 3. Comprehend the application of nanomaterials in sensors, Lab on chip devices and drug
delivery systems.

Subject POLYMER PROCESSING Credits 4

Sub. Code 1 2 C H 5 D E L B 2 L-T-P 4 0 0

Course Outcome
CO 1. Apprehend molten flow behaviour of polymer.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

CO 2. Familiarise with various processing techniques.

CO 3. Select suitable techniques based on applications.

Subject CHEMICALREACTION ENGINEERING- Credits 4

II
Sub. Code 1 3 C H 6 D C C R 2 L-T-P 4 0 0
Course Outcome
CO 1.Distinguish the performance of non-idealwith ideal systems.
CO2.Determine rate expression using reaction mechanisms of suitable model for catalytic &
noncatalytic reactions.
CO.3. Develop design equation using models for heterogeneous reaction systems.

SEMESTER VI Cluster CHEMICAL

Subject Instrumentation and Process Control Credits 5

Sub. Code 1 0 C H 6 D C I P C L-T-P 4 0 1

Course Outcome
CO 1.Identify the appropriate instruments for a application and evaluate its performance.
CO 2.Formulate transfer functions and predict responses to various forcing functions.
CO 3.Evaluate the response behaviour of P, PI, PD and PID controllers.
CO 4.Verify the stability of control systems.

Subject MASS TRANSFER-II Credits 5

Sub. Code 1 0 C H 6 D C M T 2 L-T-P 4 0 1

Course Outcome
CO 1. Apply mass balance and composition balance in interfacial mass transfer.
CO 2. Apply the concept of interfacial mass transfer in multiphase contact processes.
CO 3. Design & working of various mass transfer equipment

Subject Transport Phenomena Credits 4

Sub. Code 1 3 C H 6 D C T R P L-T-P 4 0 0

Course Outcome
CO1. Analyze the steady state operations for momentum, heat & mass transfers to interpret
practical data.
CO2. Apply broad reasoning for shell momentum, energy & mass balances for laminar flows
across various geometry and boundary conditions.
CO3. Understand the impact of equation of changes in various co-ordinate systems with its
influence on analogies between momentum, heat and mass transport.

Subject APPLIEDMATHEMATICSIN Credits 3

CHEMICALENGINEERING

Sub. Code 1 3 C H 6 D E L C 1 L-T-P 3 0 0

Course Outcome
CO 1.Develop ordinary and partial differential equations to solve Chemical engineering problems.
CO 2.Use suitable numerical methods to solve the developed differential equations.
CO 3.Apply finite difference method to solve unit operations and processes.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Subject OPERATIONS RESEARCH Credits 3

Sub. Code 1 0 C H 6 D E L C 2 L-T-P 3 0 0

Course Outcome
CO 1.Get acquainted to find optimum solutions for numerical problems using LPP. CO 2.Solve
assignment, transportation and sequencing problems for its optimal
solutions.
CO 3.Illustrate network constructions and find its feasible solutions for optimization of
societal problems.

Subject Computer Interface in Chemical Credits 3

Engineering
Sub. Code 1 4 C H 6 D E L D 1 L-T-P 3 0 0

Course Outcome
CO 1.Comprehend the basics of C-programming and MAT lab for solving chemical engineering
problems
CO 2. Apply suitable numerical methods to solve iterative chemical engineering problems
CO 3.Apply C-programming concepts to design and interpret the behavior of mass, heat transfer
and reaction engineering operations

Subject Interfacial phenomena and Credits 3

related separation techniques

Sub. Code 1 1 C H 6 D E L D 2 L-T-P 3 0 0

Course Outcome
CO 1. Comprehend the concept of surface and interfacial tension and select surface tension
measuring instruments for measuring tensions.
CO 2. Analyse the factors influencing stability of emulsions.
CO 3. Comprehend about detergency, surfactants and their applications.

SEMESTER VII Cluster CHEMICAL

Course CHEMICAL PLANT UTILITIES

Title
Course 1 6 C H 7 D C C P U Credits 03 L – T – P- 3–0–0
Code S -0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES
CO1 Apprehend different utilities required for chemical plants
CO2 Select suitable type of equipment for pressure and vacuum
CO3 Equipment required for steam and co-generation
CO4 Equipment required for cooling processes
CO5 Identify Contaminants present in water and its treatment methods
CO6 Concepts of conservation of fuel, power and water by applying norms of good
Engineering practice

Course BIOCHEMICAL ENGINEERING

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Title
Course 1 6 C H 7 D C B C E Credits 03 L – T – P- 3–0–0
Code S -0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES
CO1 Apply biology in bioprocess engineering
CO2 Understand functioning of molecules of life
CO3 Infer features of bioreactors to decide various processes
CO4 Identify enzymes for catalysed processes
CO5 Explain the kinetics of enzyme catalysed reaction
CO6 Perform the basis analytical techniques in downstream processing.

Course CHEMICAL PROCESS EQUIPMENT DESIGN & DRAWING

Title
Course 1 6 C H 7 D C P E D Credits 06 L – T – P- 3 –0 – 1 -
Code S 2
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES
CO1 Congregate the data from the literature, Handbook, Code book
CO2 Analyze, interpret the literature data
CO3 Design the heat and mass transfer equipment
CO4 Select the details of accessories based on technical needs and
availability
CO5 Decide on the incorporation of inherent safety standards
CO6 Draft the equipment as per the design

Course CHEMICAL PROCESS MODELLING & SIMULATION

Title
Course 1 6 C H 7 D C P M S Credits 05 L – T – P- 2–0–1
Code S -2
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES
CO1 Understand the physical laws and mathematical models for reactor
modules
CO2 Select suitable shell balance approach to build models for heat transfer
CO3 Select suitable shell balance approach to build models for separation
processes
CO4 Apply the simulation principles to solve build in models for reactors,
heat transfer and separation processes
CO5 Conduct Simulation experiments individually and in team using
UNISIM
CO6 Infer and interpret the simulation data by applying norms of
Engineering practice
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Course ENGINEERING ECONOMICS

Title
Course 1 6 H S 7 D C E I E Credits 02 L – T – P- 2 – 0 – 0-
Code S 0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES
CO1 Identify the factors while selecting plant location, plant layout and
feasibility survey
CO2 Solve the problems related to estimation of product cost by making
use of various costs
CO3 Differentiate different types of taxes and interest
CO4 Solve problems related to depreciation and interest
CO5 Obtain break-even point for a given production of materials and profit
and loss statement
CO6 Create a balance sheet of an industry by considering various factors

Course PRE-PROJECT WORK

Title
Course 1 6 C H 7 D C P P W Credits 02 L – T – P- 0–0–2
Code S -0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

A project is assigned at the beginning of the seventh semester. The project group should
complete the preliminary literature survey & plan of project and submit the synopsis at the end
of seventh semester with a literature survey and plan for the experimental work to be performed
with all parameters.

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Perform extensive literature survey to understand the changes in the
technological trends
CO2 Identify a feasible method to carry out the project work by
considering professional ethics of engineering practice
CO3 To formulate one or more methodological approach to carry out the
experiments to find a feasible solution for societal & environmental
problems.
CO4 Communicate and present/publish effectively the methodological
planned to carry out the project work.
CO5 Develop multidisciplinary skills to work as an individual and as a
member or leader in diverse team
CO6 Relate the outcomes of the project where the knowledge on
developed understanding will help in lifelong learning so as to suit
the current technological trends

Course FINITE ELEMENT ANALYSIS

Title
Course 1 6 C H 7 D E L E 1 Credits 01 L – T – P- 1–0–0
Code S -0
CIE 100 marks (50% weightage) SEE 100 marks (50%
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Develop shape functions and stiffness matrices for spring and bar
elements
CO2 Develop global stiffness matrices and global load vectors
CO3 Apply natural and arial coordinate systems to constant strain
triangle and linear strain triangle elements
CO4 Analyze planar structural systems using finite element modelling

Course FERMENTATION TECHNOLOGY

Title
Course 1 6 C H 7 D E L E 2 Credits 01 L – T – P- 1–0–0
Code S -0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Introduce the students to the various concepts of fermentation
CO2 Introduce the students to the role microorganism play in
fermentation process
CO3 Provide the students with the process understanding of alcoholic
various fermentation processes.

Course SMART MATERIALS

Title
Course 1 6 C H 7 D E L E 3 Credits 01 L – T – P- 1–0–0
Code S -0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Knowledge and awareness of smart materials and concepts to
engineering application areas
CO2 Critical understanding of mechanisms giving rise to the
characteristic and beneficial properties of smart materials
CO3 Understanding of material systems that underlie the analysis and
design of “smart” devices

Course SKADA AND PLC

Title
Course 1 6 C H 7 D E L E 4 Credits 01 L–T– 1 – 0 – 0- 0
Code P- S
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Explain the basic concepts, terminology, programming functions
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

and entry level PLC applications.

CO2 Enumerate applications, sketch the architecture and describe major
elements of SCADA.
CO3 List the communication requirements; describe protocols and
structure of a SCADA Communications Protocol.

Course Composite Materials

Title
Course 1 6 C H 7 I E C P 1 Credits 03 L–T– 3 – 0 – 0- 0
Code P- S
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Classify composite materials based on the Industrials applications
CO2 Apprehend and select a suitable fabrication technique for processing of
ceramic materials.
CO3 Distinguish between mechanical and chemical techniques for
fabrication of composite materials
CO4 Custom the synthesized metal- matrix and ceramic-matrix composite
materials to use in different engineering disciplines.
CO5 Comprehend the fabrication techniques for reinforced polymer
materials to demonstrate the knowledge of sustainable development.

Course Non-Conventional Energy Technology

Title
Course 1 6 C H 7 I E C P 2 Credits 03 L–T– 3 – 0 – 0- 0
Code P- S
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Familiarize with the various forms of energy resources
CO2 Understand the global distribution of energy recourses with its
environmental impacts.
CO3 Familiarize the various non-conventional energy resources
CO4 Design and Develop the requirements for economical utilization of
non-conventional energy sources.
CO5 Design basic aspects to establish non-conventional energy harvesting
units

Course Management and Entrepreneurship

Title
Course 1 6 H S 8 D C M M E Credits 03 L–T– 3–0–0-0
Code P- S
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

COURSE OUTCOMES
CO1 Gain knowledge on Management concepts & its evolution.
CO2 Learn the application of Managerial skills & attributes.
CO3 Get an in depth knowledge of Entrepreneurial process & will be able
to apply the Entrepreneurial skills.
CO4 Compile information & explore the business opportunities.
CO5 Able to prepare the Business plan.

Course Project Management and Finance

Title
Course 1 6 C H 8 D C P M F Credits 04 L – T – P- 2–0–0
Code S -2
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 To make the student understand the concept of a project with relevance
to industry and chemical industry in particular.
CO2 To understand the various stages and procedures involved in conducting
industrial projects.
CO3 To comprehend ideas like project selection, planning, implementation,
success and review
CO4 Techniques of capital budgeting, venture capital generation with
relevance to handling projects
CO5 Concepts of CPM and PERT, scheduling and forecasting with their
importance in control of projects with change in technologies

Course FINAL PROJECT WORK

Title
Course 1 6 C H 8 D C F P W Credits 12 L–T– 0 – 0 – 12-
Code P- S 0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Design and carry out the experiments/design/theoretical design/
simulations work in team in the predetermined methodology.
CO2 Analyze and interpret the obtained data for optimum solution using
suitable Engineering and IT tools.
CO3 Elucidate the short comings and identify the scope for future work
CO4 Communicate effectively the project the results/write effective reports
to publicize the deduce solutions.
CO5 Develop ability to function and to work as an individual/ as a
member/leader in diverse team
CO6 Understand the essence and need of professional ethics during project
documentation

Course INTERNSHIP & RELATED SEMINAR

Title
Course 1 6 C H 8 D C I R S Credits 02 L–T– 0 – 0 – 0- 2
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Code P- S
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Communicate & report the industrial practices through technical
presentations
CO2 Develop inter personal relationship and work as a member in
diversified areas
CO3 Understand the need of engineering solutions for sustainability and
environmental conservation
CO4 Understand the essence and need of industrial ethics
CO5 Get to know the role of economics and management principles in the
success of industrial operation

Course Waste Water treatment

Title
Course 1 6 C H 8 I E C K 1 Credits 03 L–T– 3–0–0-
Code P- S 0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)
COURSE OUTCOMES (COs):
COURSE OUTCOMES
CO1 Understanding the fundamentals and importance of Wastewater
treatment and its objectives with the basic concept of contaminants
and its effects on the environment
CO2 Understand the different streams of wastewater and its disposal on the
natural environmental based on the assimilation criteria and rural
water supply and sanitations with design criteria for sanitary, storm
sewers.
CO3 Understanding the microbiology of wastewater and its importance
during the treatment.
CO4 Understand the conventional wastewater treatment methods such as
physical, chemical and biological with advanced treatment criteria
based on the regional requirement.

Course Pilot Plant Studies

Title
Course 1 5 C H 8 I E C K 2 Credits 03 L – T – P- 3 – 0 –
Code S 0-0
CIE 100 marks (50% weightage) SEE 100 marks (50%
weightage)

COURSE OUTCOMES (COs):

COURSE OUTCOMES
CO1 Understand the concept of Pilot Plant Scale up.
CO2 Understand the principles of Similarity.
CO3 Understand the concept of different regimes for scale up.
CO4 Ability to scale up Mixing system and chemical reactors.
CO5 Ability to scale up Mass and Heat Transfer Processes
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Name of the Programme MTech in : BIOCHEMICAL ENGINEERING

Programme Educational PEO1: Graduates pursue profession in chemical engineering
Objectives (PEOs) and allied engineering
PEO2: Graduates work in diversified team
PEO3: Graduates will pursue higher education and research
Programme Outcomes (POs) PO1: An ability to independently carry out
research/investigation and development work to solve
practical problems
PO2: Ability to write and present a substantial technical
report/document
PO3: An ability to demonstrate mastery in the Biochemical
Engineering, at the level higher than the undergraduate
program in Chemical and Biotechnology Engineering.
Course Outcomes (COs)
I SEMESTER M TECH BIOCHEMICAL ENGINEERING

MATHEMATICAL MODELING IN BIOCHEMICAL ENGINEERING -18CHBCPCMM

Subject Code 18CHBCBSMM L-T-P 3-1-1

No of Lecture Hrs/Week 03+02 (Tutorials) Exam hours 03
Total No. of Lecture Hours 39 Credits 05
CIE 50 marks SEE 50 marks
COURSE OUTCOMES
CO 1: Develop mathematical models for chemical and biochemical systems.
CO 2: Solve process models using different mathematical techniques.
CO 3: Analyze process models using advanced software tool

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

BIOPROCESS ENGINEERING - 18CHBCPCBP
Subject Code 18CHBCPCBP L-T-P 3-1-1
No of Lecture Hrs/Week 03+02 (Tutorials) Exam hours 03
Total No. of Lecture Hours 39 Credit 05
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO1: Demonstrate the biological systems for engineering applications that requires
skills from the various disciplines
CO2: Classify and identify the enzymatic processes and kinetics essential to work in
the area of bioprocessing to arrive at a kinetic model to effectively represent the
physical system
CO3: Establish the skills in investigations of the experimental data to nurture
analytical and critical thinking abilities for data based decision making
CO4: Describe about various cultures, reactors, bioprocess applications and industrial
processes
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

BIOREACTORS- 18CHBCPCBR

Subject Code 18CHBCPCBR L-T-P 3-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 04
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO 1: Analyze and prepare a poster on the suitability of a bioreactor selecting from a
wide choice of spectrum of bioreactors
CO 2: Apply the concept of transport processes in biological systems involving oxygen
transfer, estimate the oxygen rates and coefficient with appropriate models
CO 3: Analyze the factors influencing the performance of bioreactors and apply
judgment to select control systems to stabilize the parameters effecting the bioreactor
performance
CO 4: Select the suitable modern tools to estimate the performance of the scaled up
bioreactors and apply ethically a suitable sterilization process

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

TRANSPORT PHENOMENA IN BIOPROCESS SYSTEMS- 16CHBCPETP

Subject Code 18CHBCPETP L-T-P 4-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 52 Credits 04
CIE 50 marks SEE 50 marks
COURSE OUTCOMES
CO 1: Apply continuity equations of change for real problems involving basic mass
transfer systems, and determination of oxygen utilization as well as transfer rates
CO 2: Adjudge applicability of mass transfer correlation to determine coefficients for
Newtonian & Non-Newtonian fluids
CO 3: Apply Modeling to estimate the distribution of temperature in solids and fluids
flowing in laminar regime
CO 4: Apply appropriate mathematical techniques to predict, estimate the
concentration distribution in fluids in laminar regime and estimate transfer coefficient

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

BIOLOGICAL THERMODYNAMICS - 18CHBCPEBT

Subject Code 18CHBCPEBT L-T-P 4-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture 52 Credits 04
Hours
CEE 50 marks SEE 50 marks
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

COURSE OUTCOMES
CO 1: Understand and apply the laws of thermodynamics to analyze energy flows in a
biological system.
CO 2: Evaluate Gibbs free energy and calculate attainable work for engineering and
biological system.
CO3: Study and present a results for Gibbs free energy and reaction kinetics

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

NUMERICAL ANALYSIS – 18CHBCPENA
Subject Code 18CHBCPENA L-T-P 4-0-0
No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 52 Credits 04
CEE 50 marks SEE 50 marks
COURSE OUTCOMES
CO1: Develop ordinary and partial differential equations to solve chemical and
biochemical engineering problems
CO 2: Apply appropriate numerical techniques to solve ODE and PDEs
CO 3: Analyze error in the solution opt using numerical techniques and minimize the
error
CO4: Apply proper regression and curve fitting method to analyze experimental data.

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

FOOD ENGINEERING - 18CHBCPEFE

Subject Code 18CHBCPEFE L-T-P 3-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CEE 50 marks SEE 50 marks
COURSE OUTCOMES
CO1: Comprehend the physical properties of food and its transportation
Identify the sources of contaminants, adulterants with its prevention for safe and
healthy food
CO3: Identify different technologies involved in food processing and preservation and
prepare document on technologies
CO 4: Select biocompatible packaging and additives for food products.

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

BIOINSTRUMENTATION - 18CHBCPEBI

Subject Code 18CHBCPEBI L-T-P 3-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CEE 50 marks SEE 50 marks
COURSE OUTCOMES
CO 1: Demonstrate an understanding of physics and engineering to explain the
theoretical concepts governing the principle and functioning of the instrument
CO 2: Understand the design of the device, impact, complexity of each instrument,
and its various models
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

CO 3: Analyze the data using theoretical knowledge from advance instruments for
precise analysis
CO4: Demonstrate the applications and interpret the experimental data

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

ANIMAL & PLANT CELL CULTURE TECHNIQUES - 18CHBCPEAP

Subject Code 18CHBCPEAP L-T-P 3-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CEE 50 marks SEE 50 marks
COURSE OUTCOMES
CO1: Understand the characteristics of cells in scale up and large scale operation
CO2 : Prepare, sterilize and harvest culture media using advanced techniques
CO3 : Familiar with techniques for pharmaceutical and medical tissue products

I SEMESTER M TECH BIOCHEMICAL ENGINEERING

INSTITUTE CORE
RESEARCH METHODOLOGY & IPR-18ALLPICRM
Subject Code 18ALLPICRM L-T-P 2-0-0
No. of Lecture Hrs/Week 02 Exam hours 03
Total No. of Lecture Hours 26 Credits 02
CEE 50 marks SEE 50 marks
COURSE OUTCOMES
CO1 : Ability to write and present a substantial technical report/document
CO2 : Able to demonstrate a degree of mastery over the area of specialization

II SEMESTER M TECH BIOCHEMICAL ENGINEERING

PROCESS AUTOMATION- 18CHBCPCPA
Subject Code 18CHBCPCPA L-T-P 3-0-1
No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 04
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO 1: Analyze complex engineering problems and apply independent judgment for
solving control problem involving open and close loops
CO 2: Evaluate the stability for open loop systems using modern tools and apply the
same for the process of modeling.
CO 3: Use the modern tools and mathematical techniques in devising advanced
control system and predict its performance..
CO 4: Analyze, experiment and interpret the stability of control systems by team.

II SEMESTER M TECH BIOCHEMICAL ENGINEERING

REACTION KINETICS – 18CHBCPCRK

Subject Code 18CHBCPCRK L-T-P 3-1-0

No of Lecture Hrs/Week 03+02 (Tutorials) Exam hours 03
Total No. of Lecture Hours 39 Credits 04
CIE 50 Marks SEE 50 Marks
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

COURSE OUTCOMES
CO1: Develop kinetic equations of heterogeneous reaction for catalytic and non –
catalytic reaction using various models with and without consideration of effective
mass and energy transport
CO2: Conduct experiment and analyze the flow behavior, contacting, conversion and
performance of non-ideal reactors using various models and comparison with ideal
reactor
CO3: Apply knowledge of reaction kinetics and flow behavior to design
II SEMESTER M TECH BIOCHEMICAL ENGINEERING
BIOSEPARATION & DOWNSTREAM PROCESSING- 18CHBCPCBD

Subject Code 18CHBCPCBD L-T-P 3-0-1

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 04
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO1: Apprehend the various downstream processes and select an unit operation to
purify
the product suitable for a particular biological mixture
CO2: Assess the purity of the desired product using modern tools by selecting an
appropriate separation process considering the economics and process feasibility
CO3: Use of membrane diffusion as a tool for separation with clear knowledge of
applicability and limitations
CO4: Design a suitable polishing and packaging operation with focus on the market,
economics and shelf life of the product

II SEMESTER M TECH BIOCHEMICAL ENGINEERING

BIOLOGICAL WASTE TREATMENT & ENGINEERING – 18CHBCPEBW

Subject Code 18CHBCPEBW L-T-P 3-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO: Explain the different regulatory standards with design criteria for environmental
parameters
CO2: Demonstrate the wastewater treatment criteria based on the regional
requirement
CO3: Comprehend the reaction kinetics, reactor selection and its process analysis
CO4: Design the treatment plant based on the fundamentals studies, bench scale
and pilot plant studies

II SEMESTER M TECH BIOCHEMICAL ENGINEERING

BIOMATERIALS & TISSUE ENGINEERING- 18CHBCPEBM

Subject Code 18CHBCPEBM L-T-P 3-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO 1: Demonstrate the concepts of biocompatibility and other properties of
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

biomaterials
CO 2: Classify and characterize biomaterials
CO 3: Understand the synthesis and properties of biopolymers in use as
biomaterials
CO 4: Demonstrate tissue engineering and applications
II SEMESTER M TECH BIOCHEMICAL ENGINEERING
MEMBRANE SEPARATION TECHNOLOGY- 18CHBCPEMS

Subject Code 18CHBCPEMS L-T-P 3-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO 1: Classify and characterizer the membranes for bio separation.
CO 2: Understand the preparation of membranes
CO 3: Analyze and select the appropriate method of membrane and membrane
process.
CO 4: Evaluate the flux of solvent and solute through membrane.

II SEMESTER M TECH BIOCHEMICAL ENGINEERING

NANOTECHNOLOGY IN BIOPROCESS INDUSTRIES – 18CHBCPENB
Subject Code 18CHBCPENB L-T-P 3-0-0
No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO1: Demonstrate the knowledge in the interface between chemistry, physics and
biology on the nano structural level with a focus on bioprocess industries use
CO2: Diagnose the concepts of BioMEMS and their use in drug delivery
CO3: Demonstrate the available nanomaterials in biological system
CO4: Imply the significance of applications for economical use of nanomaterials
II SEMESTER M TECH BIOCHEMICAL ENGINEERING
BIOSENSORS - 18CHBCPEBS
Subject Code 18CHBCPEBS L-T-P 3-0-0
No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO1. Acquaint with the need of biosensors, types of sensors and their parameters
CO2. Understand the role of transducers in chemical analytics while working with
biosensors.
CO3. Demonstrate the kinetic modeling of biosensors and biosensors applications in
industrial online monitoring
II SEMESTER M TECH BIOCHEMICAL ENGINEERING
PHARMACEUTICALS- 18CHBCPEPH
Subject Code 18CHBCPEPH L-T-P 3-0-0
No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 03
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

CIE 50 Marks SEE 50 Marks

COURSE OUTCOMES
CO1: Emphasize the knowledge on biopharmaceuticals and to identify the
pharmaceuticals of plant, animal and microbial origin
CO2: Analyze the sources of biopharmaceuticals and to identify various applications.
CO3: Design the biopharmaceutical manufacturing process and study the products
using appropriate characterization technique
CO4: Design a suitable drug delivery process, inculcate critical thinking to perform
clinical trials and to design advanced drug delivery systems

II SEMESTER M TECH BIOCHEMICAL ENGINEERING

WASTE TO ENERGY – 18CHBCOEWE

Subject Code 18CHBCOEWE L-T-P 4-0-0

No of Lecture Hrs/Week 03 Exam hours 03
Total No. of Lecture Hours 39 Credits 04
CIE Marks 50 marks SEE 50 marks
COURSE OUTCOMES
CO1: Establish the sources and composition of biomass and biomass characterization
CO2:Demonstrate production technologies, applications and also characterize the
bioethanol and biodiesel
CO3:Demonstrate the biogas production technique and the design criteria of equipment
CO4: Determine the biomass processing techniques for the improvement of quality of
biofuels

II SEMESTER M TECH BIOCHEMICAL ENGINEERING

GREEN TECHNOLOGY-18CHBCOEGT

Subject Code 18CHBCOEGT L-T-P 4-0-0

No of Lecture Hrs/Week 04 Exam hours 03
Total No. of Lecture Hours 26 Credits 04
CIE 50 marks SEE 50 marks
COURSE OUTCOMES
CO 1: Demonstrate the tools of green technology and zero waste systems
CO 2: Apply the basic principles of green chemistry and atoms
CO 3: Demonstrate the life cycle assessment methods and tools
CO4: Develop methods of pollution prevention and to predict a better design for
environment

III SEMESTER M TECH BIOCHEMICAL ENGINEERING

PROJECT WORK PHASE 1 - 18CHBCPWP1

Subject Code 18CHBCPWP1 Project Work Phase-1 0-0-16

No of Lecture Hrs/Week --- Exam hours 03
Total No. of Lecture Hours --- Credits 16
CIE 50 marks SEE 50 marks
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

COURSE OUTCOMES
CO1: Select and define an appropriate research problem and parameters through
literature review
CO2: Prepare a project review and also write protocols to perform the experiments in
an organized manner
CO3: Conduct the research and present the work progress through seminars
CO4: Write a research proposal for the grant and carry out data analysis
CO5: Write precise project report with appropriate references
III SEMESTER M TECH BIOCHEMICAL ENGINEERING
SAFETY MANAGEMENT IN BIOPROCESS INDUSTRIES-18CHBCPESM
Subject Code 18CHBCPESM L-T-P 4-0-0
No of Lecture Hrs/Week 02 Exam hours 03
Total No. of Lecture Hours 52 Credits 04
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO1: Understand the biohazard and its abatement in a safe way
CO2: Demonstrate the risk analysis, assessment and abatement of hazards for the
safe operation of processes in biochemical industries
CO3: Apprehend process safety in Biotechnological based products in order to comply
with industrial & regulatory standards
III SEMESTER M TECH BIOCHEMICAL ENGINEERING
COST MANAGEMENT OF ENGINEERING PROJECTS - 18CHBCPECM

Subject Code L-T-P 4-0-0

18CHBCPECM
No of Lecture Hrs/Week 02 Exam hours 03
Total No. of Lecture Hours 52 Credits 04
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO1: Perform and evaluate present worth, future worth and annual worth analyses on
one of more economic alternatives
CO2: Perform and evaluate payback period and capitalized cost on one or more
economic alternatives
CO3: Carry out and evaluate benefit/cost, life cycle and breakeven analyses on one or
more economic alternatives
III SEMESTER M TECH BIOCHEMICAL ENGINEERING
SEMINAR - 18CHBCPCSR
Subject Code 18CHBCPCSR L-T-P 0-0-2
No of Lecture Hrs/Week 00 Exam hours 3
Total No. of Lecture Hours 00 Credits 02
CIE 50 Marks SEE 50 Marks
COURSE OUTCOMES
CO1: Communicate orally, present the technical research work using modern tools
CO2: Address certain societal issues and find out solutions from the studies
CO3: Present solution for the sustainable development
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

CIE EVALUATION
The student shall study minimum four recent research publications/patents published
and present the same as seminar.
The topic of the presentation shall be related to M Tech specialization/project work
Three presentations shall be given by the student on the topic during the semester
evaluated by the faculty in charge of the course.
SEE EVALUATION
The topic presented during the CIE evaluation shall be presented. The SEE evaluation
at the end of the semester shall be done in the presence of external examiner.

III SEMESTER M TECH BIOCHEMICAL ENGINEERING

AUDIT COURSE- ENGLISH FOR RESEARCH PAPER WRITING -18CHBCNCER
Subject Code 18CHBCNCER L-T-P 2-0-0
No of Lecture Hrs/Week 00 Exam hours 00
Total No. of Lecture Hours 50 Credits 00
CIE 50 Marks SEE P/NP
COURSE OUTCOMES
CO1: Improve writing skills and level of readability
CO2: Excel the skills needed to write each section of a technical paper
CO3: Write conclusions through study and a good quality review paper

III SEMESTER M TECH BIOCHEMICAL ENGINEERING

AUDIT COURSE- VALUE EDUCATION -18CHBCNCVE
Subject Code 18CHBCNCVE L-T-P 2-0-0
No of Lecture Hrs/Week 00 Exam hours 00
Total No. of Lecture Hours 50 Credits 00
CIE 50 Marks SEE P/NP
COURSE OUTCOMES
CO1; Acquire the knowledge of self-development
CO2: Demonstrate the importance of human values
CO3: Develop the overall personality

IV SEMESTER M TECH BIOCHEMICAL ENGINEERING

PROJECT WORK -PHASE 2 - 18CHBCPWP2

Subject Code Project Work Phase -

18CHBCPWP2 0-0-12
2
No of Lecture Hrs/Week --- Exam hours 3
Total No. of Lecture Hours --- Credits 12
CIE 100 marks SEE 100
COURSE OUTCOMES
CO1: Demonstrate research work as per the objectives set and suggestions by
supervisors for the best outcomes of the work
CO2: Compute and analyze the experimental data
CO3: Publish the research work in a technical, and reputed journal

IV SEMESTER M TECH BIOCHEMICAL ENGINEERING

INTERNSHIP - 18CHBCPCIN
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

Subject Code 18CHBCPCIN L-T-P 0-0-8

No of Lecture Hrs/Week --- Exam hours 03
Total No. of Lecture Hours --- Credits 08
CIE 50 marks SEE 50 marks
COURSE OUTCOMES
CO1: Understand the functioning of chemical process industry
CO2: Demonstrate the knowledge on the recent developments in the area
CO3: Iintegrate the theoretical knowledge with practical processes
CO4: Communicate skillfully and work in interdisciplinary teams in industry
CO5: Recognize the professional and ethical responsibility

IV SEMESTER M TECH BIOCHEMICAL ENGINEERING

FERMENTATION TECHNOLOGY - 18CHBCPEFT

Subject Code 18CHBCPEFT L-T-P 2-0-0

No of Lecture Hrs/Week 02 Exam hours 3
Total No. of Lecture Hours 26 Credits 02
CIE Marks 50 marks SEE 50 marks
COURSE OUTCOMES
CO1: Demonstrate the science underlying the conversion of raw materials, various
source, their quality and their influence on the properties of final products
CO2: Design, formulate and select the skills to perform committed laboratory
exercises through sterilization and other activities
CO3: Distinguish the design and operation of basic methods of fermentation process
CO4: Acquaint with the apparatus and instruments for technical procedures used in
the laboratory

IV SEMESTER M TECH BIOCHEMICAL ENGINEERING

ENZYME TECHNOLOGY- 18CHBCPEET
Subject Code 18CHBCPEET L-T-P 2-0-0
No of Lecture Hrs/Week 02 Exam hours 03
Total No. of Lecture Hours 26 Credits 02
CEE 50 marks SEE 50 marks
COURSE OUTCOMES
CO 1: Demonstrate the enzymes structure, properties, classification and their
specificity
CO 2: Apply the knowledge to analyze the kinetics of reaction and arrive at a model
representing the type of process
CO 3: Demonstrate the type of reaction through the analysis of the experimental
data
CO 4: explain the industrial applications and analytical tools in use.

IV SEMESTER M TECH BIOCHEMICAL ENGINEERING

AUDIT COURSE PEDAGOGY STUDIES - 18CHBCNCPS
Subject Code 18CHBCNCPS L-T-P 2-0-0
No of Lecture Hrs/Week 00 Exam hours 00
Total No. of Lecture Hours 50 Credits 00
CIE 50 Marks SEE P/NP
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU
DEPARTMENT OF CHEMICAL ENGINEERING

COURSE OUTCOMES
CO1: Demonstrate the pedagogical practices used by teachers in formal and informal
classrooms in developing countries
CO2: Understand the effectiveness of the pedagogical practices, with respect to type
of conditions, and population of learners
CO3: Demonstrate the support by the teacher education (curriculum and practicum)
and the school curriculum and guidance materials for the best and effective pedagogy

IV SEMESTER M TECH BIOCHEMICAL ENGINEERING

AUDIT COURSE STRESS MANAGEMENT BY YOGA-18CHBCNCSY
Subject Code 18CHBCNCSY L-T-P 2-0-0
No of Lecture Hrs/Week 00 Exam hours 00
Total No. of Lecture Hours 50 Credits 00
CIE 50 Marks SEE P/NP
COURSE OUTCOMES
CO1: Develop healthy mind in a healthy body thus improving social health also
CO2: Improve efficiency by overcoming stress
CO3: Demonstrate the uses orally and exercises physically

IV SEMESTER M TECH BIOCHEMICAL ENGINEERING

AUDIT COURSE DISASTER MANAGEMENT - 18CHBCNCDM
Subject Code 18CHBCNCDM L-T-P 2-0-0
No of Lecture Hrs/Week 00 Exam hours 00
Total No. of Lecture Hours 50 Credits 00
CIE 50 Marks SEE P/NP
COURSE OUTCOMES
CO1: Demonstrate a critical understanding of key concepts in disaster risk reduction and
humanitarian response.
CO2: Evaluate disaster risk reduction and humanitarian response policy and practice
from multiple perspectives.
CO3: Develop an understanding of standards of humanitarian response and practical
relevance in specific types of disasters and conflict situations.
CO4: Demonstrate the strengths and weaknesses of disaster management approaches,
planning and programming
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

Name of the Programme B.E. in BIOTECHNOLOGY

Programme Specific Outcomes (PSOs) 1. Apply knowledge of basic sciences
and biotechnological techniques to
manipulate living organisms
2. Design, optimize, analyse and scale
up a bioprocess to develop value
added products
3. Generate, analyse and interpret
Biological data using Insilco
approaches.
Programme Outcomes (POs) PO1 Engineering knowledge: Apply the
knowledge of mathematics, science,
engineering fundamentals, and an
engineering specialization to the solution of
complex engineering problems.
PO2 Problem analysis: Identify,
formulate, review research literature, and
analyse complex engineering problems
reaching substantiated conclusions using
first principles of mathematics, natural
sciences, and engineering sciences.
PO3 Design/development of solutions:
Design solutions for complex engineering
problems and design system components
or processes that meet the specified
needs with appropriate consideration for
the public health and safety, and the
cultural, societal, and environmental
considerations.
PO4 Conduct investigations of complex
problems: Use research-based knowledge
and research methods including design of
experiments, analysis and interpretation of
data, and synthesis of the information to
provide valid conclusions.
PO5 Modern tool usage: Create, select,
and apply appropriate techniques,
resources, and modern engineering and IT
tools including prediction and modelling to
complex engineering activities with an
understanding of the limitations.
PO6 The engineer and society: Apply
reasoning informed by the contextual
knowledge to assess societal, health,
safety, legal and cultural issues and the
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

consequent responsibilities relevant to the

professional engineering practice.
PO7 Environment and sustainability:
Understand the impact of the professional
engineering solutions in societal and
environmental contexts, and demonstrate
the knowledge of, and need for
sustainable development.
PO8 Ethics: Apply ethical principles and
commit to professional ethics and
responsibilities and norms of the
engineering practice.
PO9 Individual and team work: Function
effectively as an individual, and as a
member or leader in diverse teams, and in
multidisciplinary settings.
PO10 Communication: Communicate
effectively on complex engineering activities
with the engineering community and with
society at large, such as, being able to
comprehend and write effective reports and
design documentation, make effective
presentations, and give and receive clear
instructions.
PO11 Project management and finance:
Demonstrate knowledge and understanding
of the engineering and management
principles and apply these to one's own
work, as a member and leader in a team, to
manage projects and in multidisciplinary
environments.
PO12 Life-long learning: Recognize the
need for, and have the preparation and
ability to engage in independent and life-
long learning in the broadest context of
technological change.
Course Outcomes (COs)
3rd Semester
Basics of Biomolecules (15BT3DCBBM) CO 1 Identify the different reaction types
and mechanisms involved in bio-organic
reactions.
CO 2 Solve problems based on the
concepts of solution chemistry and illustrate
the different structural configurations of
organic molecules
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 3 Explain the physiochemical

properties and structural confirmations of
biomolecules
CO 4 Comprehend the importance of
biomolecules in biological systems
Cell & Molecular Biology (15BT3DC CMB) CO 1 Describe structure and function of
cell and organelles.
CO 2 Understand the concepts of
inheritance and apply to solve related
problems.
CO 3 Explain mechanism of DNA
replication, transcription and translation.
CO 4 Comprehend mechanisms of gene
regulation as well as DNA damage, repair
and recombination processes.
CO 5 Demonstrate ability to conduct
experiment, interpret and analyze data
related to cell and its processes.
CO 6 Identify problems related to cell and
its molecular processes, formulate solution
and derive valid conclusions
Microbiology (15BT3DCMBG) CO 1 a) Ability to describe principle of
various types of microscopes and
demonstrate their effective use
b) Ability to Select an appropriate
microscopic technique for identification
microbes.
CO 2 a) Understand the structure and
biology of microbial organisms.
b) Describe the various metabolic
pathways and industrial applications of
microbial organisms
c) Ability to measure microbial growth
using suitable technique.
CO 3 Conduct experiments, and draw
inferences for isolation, characterization
and produce a desired a product using
microorganism.
CO 4 Conduct sterilization techniques for
control measures in Biotechnological
engineering practices
Process Engg Thermodynamics (15BT3DC CO 1 Identify the various types of
PET) systems, processes and to solve
engineering problems using laws of
thermodynamics.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 2 a) Comprehend the P-V-T

behaviour of pure fluids and solve related
problems.
b) Understand heat effects in chemical
reactions and solve related problems.
CO 3 Solve problems related to properties
of pure fluids and solutions.
CO 4 Apply the concept of phase
equilibria, reaction equilibria and energetics
in the Biochemical engineering problems.
Unit operations-1 (15BT3DC UO1) CO 1 Identify the various types of fluids,
their characteristics and applications.
CO 2 Analyse the fluid flow under various
regimes, select suitable transport and
metering mechanism.
CO 3 Comprehend the concepts of size
reduction, filtration, sedimentation and
mixing in upstream and downstream
processes.
CO 4 Formulate, analyse and solve
engineering problems involving fluid
mechanics and mechanical operations.
Applied Mathematics (15BT3DCAPM) CO-1: Compute solution of a system of
algebraic equations, algebraic and
transcendental equations, and ordinary
differential equations numerically.
CO-2: Demonstrate an understanding of
Fourier series and Fourier transforms
techniques.
CO-3: Formulate boundary value problems
involving one dimensional heat and wave
equation.
CO-4: Solve partial differential equations
with appropriate boundary conditions using
analytical techniques.
CO-5: Use calculus of variations to find the
extremal of a functional.
4th semester
Biochemistry & Bioenergetics (15BT4 DC CO 1 Understand the principles governing
BAB) bioenergetics and the role of high energy
compounds in living systems.
CO 2 Understand the concepts of
thermodynamics of electron transfer and
redox reactions in aerobes.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 3 Describe the steps involved in

metabolic pathways in living systems and
their homeostasis in health and disease
CO 4 Understand the mechanism of
energy generation in living systems.
CO 5 Design, conduct experiments related
to qualitative and quantitative analysis of
biomolecules and interpret data.
Unit Operations-2 (15BT4 DC UO2) CO 1 Apply mathematical knowledge to
formulate and analyze problems related to
steady state heat conduction, convection
and insulation.
CO 2 Understand the working principle
and construction of heat exchangers and
evaporators and solve related problems.
CO 3 Analyze diffusional processes and
estimate flux and mass transfer coefficients
in a diffusion process.
CO 4 Explain working principle of various
separation processes and equipment
required.
CO 5 Apply the concepts of mechanical
operations, momentum transfer, heat
transfer and mass transfer operations in lab
experiments.
CO 6 Demonstrate the concepts of heat
and mass transfer in bioprocess.
Engg Maths-IV (Biostatistics and CO-1 Ability to estimate the correlation of
probability (15BT4 DC BSP) two variables and prediction of one variable
from the other.
CO-2 Apply the basic principles of
probability and probability distributions to
the problems in Biotechnology.
CO-3 Apply the concepts of Markov chain
to the field of genetics.
CO-4 Demonstrate and understanding of
sampling and its various techniques.
CO-5 Draw inferences about the
characteristics of population from the
samples based on the parametric and non-
parametric tests.
Environmental Biotechnology (15BT4 DC CO 1 Understand the fundamental
EBT) mechanisms involved in the interaction of
living and non-living systems with
toxicants.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 2 Analyze applicability of
phenomena such as bioremediation and
bioaugmentation.
CO 3 Understand impact of renewability
concept in present day scenario.
CO 4 Select design processes in
treatment of waste water and solid wastes
Basics of Computer applications (15BT4 CO 1 Apply the concept of SQL to create
DC BCA) and access the databases and can develop
a database
CO 2 Comprehend the concept of
networks, internet, and web services.
CO 3 Apply the concept of HTML and XML
to create a website.
CO 4 Describe the different datatypes of
PERL and its functions and write the PERL
scripts for various biological and allied
applications.
CO 5 Apply the concepts of programming
for emerging technologies
Process principles and calculations(15BT4 CO 1 Apply the basic concepts of process
DC PPC) calculations in biochemical engineering
applications.
CO 2 Formulate and solve the material
balances on steady state unit operations
involving with & without reaction.
CO 3 Formulate and solve the energy
balances of chemical reactions.
CO 4 Formulate and solve the
stoichiometric equations for microbial
growth & product formation.

5th semester
Bioanalytical Techniques (16 BT 5DC CO 1. Select technique (s) that can be
BAT) applied for a biomolecule separation and
elucidate the principle and method
CO 2. Select technique (s) that can be
applied for a biomolecule purification and
elucidate the principle and method.
CO 3. Select and apply suitable
techniques for identification of
biomolecules.
CO 4. Select and apply suitable
techniques for characterization of
biomolecules.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

Bioinformatics (16 BT 5DC BIN) CO 1. Describe various bioinformatics

resources and classify biological databases
and their file formats
CO 2. Construct sequence alignment,
analyze and interpret the data.
CO 3. Perform phylogenetic analysis and
interpret the data.
CO 4. Perform sequence analysis,
restriction site mapping, primer designing
and visualization of protein structures.
CO 5. Comprehend and apply the in silico
tools towards drug discovery.
Reaction Engineering (16 BT 5DC REN) CO 1. Compute chemical reactions rates
using different methods.
CO 2. Derive design equations for
different reactors at steady state as well as
analyze and solve related problems.
CO 3. Estimate the residence time
distributions for various non-ideal reactors
and compare various models.
CO 4. Select bioreactor for a given criteria
and describe scale-up process.
CO 5. Identify, interpret and solve
problems related to microbial kinetics for
biochemical engineering applications.

Genetic Engineering (16 BT 5DC GEN) CO 1. Understand, Relate, compare and

contrast application of various tools in gene
manipulation.
CO 2. Apply a suitable gene transfer
methods and factors influencing its
expression.
CO 3. Apply a suitable approach for
isolation, purification, amplification and
detection of nucleic acids as well as for
design and construction of a DNA/cDNA
library
CO 4. Apply the concepts and tools for
gene manipulation in development of
GMOs.
CO 5. Design and conduct experiments
related to gene manipulation as well as
analyze and interpret data.
Immunotechnology (16 BT 5DC IMM) CO 1. A. distinguish various types of
antibody molecules and explain their
production and application as therapeutics
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 1B. Draw structure of immune cells and

organs, relate their role in immune defense
CO 1C. Distinguish MHC class I and class II
and illustrate their role in antigen
processing pathways.
CO 2. Describe the role of immune system
in health, disease and transplant rejection
CO 3. Describe various parameters in
design of vaccines
CO 4. Conduct experiments involving
detection and quantification of antigens
and antibodies
Elective-A
Animal Biotechnology (16 BT 5DE ABT) CO 1. Draw sketches for layouts to design
cell culture labs, select and relate the
usage of suitable equipment and media.
CO 2. Differentiate the methods used for
characterization of cultured cells.
CO 3. Relate the potential applications,
method of production and merits &
demerits of transgenic technologies in
health and disease
CO 4. Select and describe the
methodologies used for commercial scale
production of animal cells and their
products.

Microbial Biotechnology (16 BT 5DE MBT) CO 1. Describe microbial growth kinetics,

screening of superior producer organisms
and solve related problems
CO 2. Formulate bioengineering
strategies large scale-production of
metabolic intermediates,
biopharmaceuticals, industrial biocatalysts
and recombinant products
CO 3. Apply the mechanism of microbial
metabolism in generating energy by
sustainable utilisation of biomass and
organic waste
CO 4. Relate the applications of microbes
in Bioremediation and Bioleaching.

Human Physiology (16 BT 5DE HPH) CO 1. Comprehend coordinated functions

of various organs of human body
CO 2. Recognize and explain the
physiological controls and feedback loops.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

Plant Biotechnology (16 BT 5DE PBT) CO 1. Apply different methods for

transformation of plants, including their
specific advantages and applications
CO 2. Plan ideal genetic engineering
strategies for the betterment of forestry,
agriculture, and for the production of novel
compounds, biopharmaceuticals and bio-
fuels
CO 3. Adopt current regulations for the
production and use of GMOs.
CO 4. Use alternative cost-effective plant
biotechnology methods that can replace
genetic modification.

6TH Semester
Bioprocess Technology (16 BT 6DC BPT) CO 1. Comprehend and apply the
inoculum development and strain
improvement techniques for a desired
fermentation process.
CO 2. Select a fermenter and formulate
suitable media for a desired fermentation
process.
CO 3. Apply techniques and processes for
batch and continuous sterilization and
solve related problems.
CO 4. Apply various downstream
techniques for product isolation, separation
and purification.
CO 5. Conduct experiments for
production, isolation and recovery of bio -
products.
Enzyme Technology & Kinetics (16 BT CO 1. Select appropriate methods for
6DC ETK) isolation, purification and characterization
of enzymes and solve related problems
CO 2. Analyze and solve problems related
to kinetics of enzymatic reactions
CO 3. Compare and contrast methods in
enzyme catalysis and interpret the related
data
CO 4. Illustrate immobilization techniques
and their applications
CO 5. Comprehend the applications of
nonconventional media in enzyme catalysis
and design the methods for the creation of
novel enzymes
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 6. Design, conduct experiments,

analyse and interpret results related to
enzyme reaction kinetics
Genomics & Proteomics (16 BT 6DC GAP) CO 1. Select and describe techniques and
approaches for genome sequencing.
Analyze and interpret related data
CO 2. Select and describe applications of
various contemporary genome mapping
techniques as well as interpret related data
CO 3. Select and describe applications of
contemporary high-throughput techniques
for analysis of genomes, transcriptomes
and Proteomes.
CO 4. Differentiate the application of
contemporary high-throughput techniques
for proteinprotein interaction studies
Pharmaceutical Biotechnology (16 BT 6DC CO 1. Outline the drug development
PBT) process, its economics and regulatory
guidelines.
CO 2. Describe the concepts of tablet
manufacturing, formulation, dosage forms
and modes of drug delivery
CO 3. Distinguish different phases of drug
and toxicants metabolism as well as apply
concepts of pharmacokinetics and
pharmacodynamics in drug development
process.
CO 4. Relate application of
biopharmaceuticals for different
therapeutic conditions.
Process Control and CO 1. Classify automatic process control
Automation (16 BT 6DCPCA) systems and solve problems related to
Laplace Transform
CO 2. Deduce transfer function for various
systems as well as analyze and interpret
the responses
CO 3. Comprehend the working principle
of various controllers, final control
elements and solve related problems
CO 4. Analyze the stability of system
using different tools and techniques
CO 5. Measure and control the various
physical parameters using controllers

Elective-B
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

Metabolic Engineering (16 BT 6DE MTE) CO 1. Elucidate central metabolic

reactions and models used for cellular
reactions.
CO 2. Comprehend regulation of
metabolic pathways at different levels and
analyze metabolic flux for real time
applications
CO 3. Describe the metabolic control
analysis and plan a suitable metabolic
design for maximizing product yield.
CO 4. Relate applications of metabolic
engineering for current research/industrial
practices
Bioinstrumentation & Biosensors (16 BT CO 1. Describe components and
6DE BIB) applications of biomedical devices
CO 2. Select and describe usage &
working principle of biomedical devices for
cardiovascular and respiratory system
measurements
CO 3. Apply the concepts in design of a
biosensor to detect analytes
Genome Informatics (16 BT 6DE GIN) CO 1. Comprehend and compare various
Next-Generation Sequencing Techniques
CO 2. Comprehend and apply the tools for
assembly of Sequencing Data.
CO 3. Illustrate applications of different
algorithms used to acquire, analyse,
assemble and visualize the genomic
sequence data.
CO 4. Relate the application of NGS in
diagnosis and treatment of diseases.
Food Biotechnology (16 BT 6DE FBT) CO 1. Comprehend the physico-chemical
characteristics of foods
CO 2. Apply biotechnological procedures
in food industry.
CO 3. Apply various methods for
identification of microbes in food.
CO 4. Identify suitable techniques for
preservation of food.

7th Semester
Bioprocess Equipment Design and CAED CO 1. Comprehend the importance of
(16BT7DC EQD) parameters required to design process
equipment
CO 2. Identify the various symbols used in
process flow diagrams
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 3. Draw the sketches of pipe joints,

stuffing box, valves, pumps and bioprocess
vessels using CAED
CO 4. Design shell & tube heat exchanger,
distillation column and Fermenter for given
parameters
Process Plant design & Economics( CO 1. Select suitable site, plant lay out
16BT7DC PPE) and technologies required for
establishment of a process plant
CO 2. Emphasize on the role of process
engineer and check the feasibility of
process
CO 3. Estimate the cash flow in industrial
operations and depreciation charges
CO 4. Select suitable process by
estimating the production cost and
profitability analysis
Bioethics, Biosafety and IPR (16BT7DC CO 1. Understand the basic structure of
BIP) intellectual property and its relevance to
modern biotechnology
CO 2. Adoption of patenting system in
day-today research for protecting
innovative ideas as well as the age-old
traditional skills
CO 3. Inculcate ethics and understand the
possible societal anticipations of outcomes
from potential applications of
biotechnology targeting the end-user
CO 4. Learn and adopt the established
guidelines with respect to biosafety
practices in research and development
sectors
Mini project ( 16BT7DC MPR) CO 1. Comprehend a given problem
pertaining to BT
CO 2. Compile, analyse and interpret data
from the literature collected and derive
valid conclusion
CO 3. Design and conduct preliminary
experiments independently toward
standardization of protocols within a given
period of time.
CO 4. Write effective report and
Communicate effectively by oral
presentation
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

Biotechnology for society (16BT7DC BFS) CO 1. Comprehend the role and impact of
Biotechnology on the society.
CO 2. Understand the responsibility of
biotechnologist towards society
Elective-C
Industrial Biotechnology (16BT7DE IBT) CO 1. Understand the concept of
bioconversion and media design.
CO 2. Identify and analyze the metabolic
pathways involved in production of
different metabolites from living
organisms.
CO 3. Distinguish and apply the process
technologies for large scale production of
industrially important products from living
organisms
Aqua & Marine BT (16BT7DE AMT) CO 1. Understand the biology of marine
micro-macro flora and fauna. CO 2. Apply
the techniques for detection of marine
organism and bio-augmentation
CO 3. Comprehend on the marine food
processing, product and safety.
CO 4. Screening & purification of bioactive
compounds from marine flora & fauna
Biomaterials & Tissue Engineering CO 1. Compare and distinguish various
(16BT7DE BTE) biomaterials
CO 2. Justify the use of suitable
biomaterials for various applications
CO 3. Understand the role of implants in
artificial organs
CO 4. Identify the suitable use of implants
in tissue replacement
Clinical Data Management (16BT7DE CO 1. Apply principle steps in drug
CDM) discovery
CO 2. Outline the pertinent issues
involved in undertaking of clinical research
and recruitment of subjects for study
CO 3. Distinguish the roles of CRC, CRA
for effective data management in clinical
research.
8th semester
Project management and CO 1. Identify the characteristics of
Finance (HSS Core) (16BT8DC PMF) project and role of project manager.
CO 2. Check the feasibility of project and
categorize its life cycle
CO 3. Apply scheduling and financing
techniques for given project
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 4. Develop cost control strategies for

project
CO 5. Communicate with team and
measure the performance of project

Project work (16BT8DC PRW) CO 1. Identify the problem and survey

literature pertaining to the problem.
CO 2. Explore for sustainable solutions
and reason the impact of BT solutions to
the problem chosen.
CO 3. Understand the need for good
experimental design and scientific research
practices
CO 4. Select an appropriate protocol and
conduct the experiments
CO 5. Analyse, interpret data and derive
valid conclusions.
CO 6. Write effective report and
Communicate scientifically via oral
presentation.
CO 7. Execute the project in team within
stipulated time period.
Internship/Industrial Training/ technical CO 1. Survey literature pertaining to
seminar(16BT8DC IRS) given problem
CO 2. Formulate the problem, plan and
conduct experiment in a given time period
CO 3. Apply various BT techniques to
derive a valid conclusion
CO 4. Write effective report and present
effectively by oral communication
CO 5. Ability to work individually or team
Management & Entrepreneurship
(16HS8DCMME) CO 1. Comprehend the various functions
and approaches of management and
entrepreneurship.
CO 2. Apply knowledge of management,
entrepreneurial skills and financial support
in solving issues of an industry or Start-ups
at various levels.
CO 3. Able to design solutions using
principles and attributes of management
for an industry for a given case or situation.
CO 4. Demonstrate managerial skill by
prepare business plan for a given project
and able to communicate.
Elective D
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

Transport Phenomena (16 BT8DETRP) CO1. Comprehend one dimensional

transport process and its applications in
laminar flow and turbulent conditions
CO2 Identify and Analyze transport
process involved in molecular motion.
CO3 Derive and apply equations for
solving momentum, mass and heat
transfer problems
Nano-Biotechnology (16 BT8DE NBT) CO 1. Identify the Nano biomaterials and
understand their properties.
CO 2. Apply the concepts of
nanotechnology for Nano analytics and
characterize nanomaterial.
CO 3. Comprehend the concept of
nanotechnology and their role in a wide
range of diagnostic and therapeutic
applications
Data Analytics (16 BT8DE DAN) CO 1. Comprehend the basics of Hadoop,
Hive and RHADOOP
CO 2. Apply HADOOP and RHADOOP to
analyse the data
CO 3. Design big data applications
schema and use HIVE QL to analyse the
data.
Advanced Programming (16 BT8DE APG) CO 1. Comprehend the basics of R
programming and Bioconductor
CO 2. Apply statistical techniques using R
Programming for analysis of data.
CO 3. Analyze and interpret the Biological
data using the Bioconductor tools
Open electives 7th semester
Instrumental Methods of Analysis CO1. Ability to understand and remember
(16BT7IE IMA) the principles and applications of various
techniques
used in the purification and analysis of
biomolecules.
CO 2. Ability to select and apply
appropriate tools and techniques in the
purification and analysis
of biomolecules.
CO 3. Ability to critically analyze different
techniques used for the purification and
analysis of biomolecules.
CO 4. Ability to design solution to problems
by applying suitable components of bio-
analytical techniques.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF BIOTECHNOLOGY

CO 5. Ability to work individually and as a

team in a multidisciplinary environment.
Ecology and Environmental Management CO 1. Understand key ecological concepts
(16BT7IE EEM) and the ecological interactions which effect
environment
CO 2. Analyze and predict the effects of
ecological interactions amongst
populations.
CO 3. Understand the phytogeographical
and zoogeographical distribution of the
world.
CO 4. Understand the principles and
concepts related to environmental
management.
CO 5. Analyze and evaluate the
applicability of various biotechnological
principles for
maintenance of ecological sustainability.
CO 6. Understand the guidelines and
regulatory policies involved in
environmental management.
Open electives 8th semester
Research Methodology (16 BT IE RMD) CO1. Understand how scientific research is
conducted.
CO2. Design methodology for research.
CO3. Comprehend the methods and
techniques involved in Data collection
CO4. Apply the basic statistics to test the
significance, validity and reliability of the
research results.
CO5. Interpret the research results and
prepare report.
Forensic Science (16BT8IEFRS) CO1.Comprehend on views of forensic
procedure and protocols required to solve
cases
CO2. Describe the organization of crime lab
and processing of crime scene based on
evidences
CO3. Summarize various types of
evidences and methods of analyzing the
evidences
CO4. Explain categories of cybercrime and
ethics involved in Forensic sciences
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

Name of the Programme Department of Management Studies and

Research Centre
Programme Specific Outcomes (PSOs) 1. Graduating students will have a holistic
knowledge, required skills and attitudes that
demonstrate ability to perform as management
professionals
2. Graduates will exhibit the ability to solve
problems in the real world that need cross
functional team work
3. Graduates will be effective management
leaders of time, to deliver desired results.
Programme Outcomes (POs) PO1. Apply knowledge of management theories
and practices to solve business problems.
PO2. Foster Analytical and critical thinking
abilities for data based decision making.
PO3. Ability to develop Value based Leadership
ability.
PO4. Ability to understand, analyze,
communicate global, economic, legal, and
ethical aspects of business.
PO5. Ability to lead themselves and others in
the achievement of organizational goals,
contributing effectively to the team
environment.
PO6. Ability to develop entrepreneurial
thinking and business acumen.
PO7. Ability to foster research skills and their
applications in the respective domain.
Course Outcomes (COs) – 1st Sem

1. MANAGEMENT PROCESS AND CO1-Learn and apply techniques in General

ORGANIZATIONAL BEHAVIOUR - Management and Organization Behaviour to
18MBA1PCMO solve business problems
CO2-Analyze and assess facets of Business
environment for various Organizational
purposes
CO3-Nurture leadership skills required to
manage the team effectively, in order to
achieve Organization’s objectives
CO4-Inculcate critical thinking skills in students
to enable them to analyze business data and
cases and make decisions related to General
Management and Organization Behaviour
CO5-Develop value based leadership through
oral presentation and assignments
2. MANAGERIAL ECONOMICS - CO1-Learn and apply the principles and
18MBA1PCME practices of microeconomics to solve business
problems.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

CO2-Understand and analyse the demand,

cost, production, pricing, profit and capital
management aspects of business.
CO3-Think, analyse, assess, summarise and
present (oral and written) using cases and data
for decision making.
CO4-Formulate competitive strategies to bring
in entrepreneurial thinking and business
acumen.
3. ACCOUNTING FOR MANAGERS - CO1-Understand the accounting cycle.
18MBA1PCAC CO2-Apply the effect of business transactions
on organizations’ accounting records.
CO3-Analyze the accounting system to prepare
financial statements and to interpret them.
CO4-Communicate accounting Concepts,
principles, Indian / International framework to
variety of audience.
4. MARKETING MANAGEMENT - CO1-Understand & apply marketing concepts to
18MBA1PCMM solve marketing problems
CO2-Analyze & evaluate the marketing mix of a
product or a service
CO3-Ability to create an Integrated Marketing
Communications plan for an organization
CO4-Create & present a marketing plan for a
given entity.
5. BUSINESS COMMUNICATION - CO1-Understand the principles of
18MBA1PCBC communication required for working with
internal teams and external stakeholders.
CO2-Apply the skills of oral communication and
written communication to enhance
interpersonal relationships and leadership
ability.
CO3-Analyse the situation and apply the
appropriate communication strategy and
systems.
CO4-Ability to gain critical thinking skills by
evaluating communication requirements.
6. BUSINESS ANALYTICS - 18MBA1PCBA CO1-Apply Business Analytics concepts in
various business domains
CO2-Evaluate descriptive statistics, probability
and conduct hypothesis testing in business
context.
CO3-Develop predictive analytical models
CO4-Comprehend some common approaches
used in data mining and also understand the
scope of prescriptive analytical models
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

Course Outcomes (COs) – 2nd Sem

1. OPERATIONS RESEARCH - CO1-Understand the nature of Operations
18MBA2PCOR Research.
CO2-Develop the mathematical models of
Operations Research to solve business
problems.
CO3-Use the analytical models for making
business decisions using Operations Research
techniques.
CO4-Communicate the results of quantitative
analysis to various aspects of business.
2. FINANCIAL MANAGEMENT - CO1-Understand the basics of financial
18MBA2PCFM environment
CO2-Imbibe the knowledge of financial
management theories and practices to solve
business problems
CO3-Develop analytical and critical thinking
skills of financial decisions by associating tools
and techniques for data based decision
CO4-Communicate the various aspects of
financial management.
3. HUMAN RESOURCE MANAGEMENT - CO1-Understand and apply the fundamental
18MBA2PCHR concepts in People Management
CO2-Analyse the business situation and utilize
the people management skills
CO3-Develop critical thinking skills to make
decisions involving people
CO4-Gain knowledge on Industrial Relations to
handle people related issues
4. BUSINESS RESEARCH METHODS - CO1-Understand the steps needed to complete
18MBA2PCBR a research study and formulate a research
design
CO2-Apply various data collection methods for
research in different business domains
CO3-Analyse data using various tools and
techniques for decision making
CO4-Create effective business reports and do
presentations
5. BUSINESS, GOVERNMENT AND CO1-Comprehend the elements of business,
SOCIETY - 18MBA2PCBG government and society and their
interrelationship.
CO2-Apply the knowledge of BGS to solve the
business problem.
CO3-Analyze and present the interaction
among business, government and a society
based on qualitative data.
CO4-Discern and analyze the legal and ethical
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

aspects of the business.

6. MANAGEMENT INFORMATION SYSTEM - CO1-Understand the role of Information
18MBA2PCMS Technology in Management
CO2-Apply IT Solutions for Business Problem
Solving
CO3-Relate to the usage of Internet and its role
in managing a business
CO4-Analyse the impact of IT on society

Course Outcomes (COs) – 3rd Sem CORE PAPER

1. OPERATIONS MANAGEMENT - CO1-Apply various aspects of operations
18MBA3PCOM management to solve business problems
CO2-Make data driven decision in the domain
of Operations Management
CO3-Analyse operation processes from different
perspectives such as forecasting productivity,
workflow, quality and break even.
CO4-Use and communicate concepts of
Operations management for organisational
effectiveness through oral presentations and
written reports.
2. MACRO BUSINESS ENVIRONMENT - CO1-Apply the concepts of Macro Economics to
18MBA3PCMB solve business problems.
CO2-Analyze and Communicate the Macro
Environment of Global, economic, legal and
ethical aspects of business. economy to foster
critical thinking for developing solutions to
address the gaps.
CO3-Adopt the policies for various sector to
develop Entrepreneurial thinking and business
acumen.
CO4-Assess the status of infrastructure and
human resources in the Indian
3. ENTREPRENEUR SHIP DEVELOPMENT - CO1-Apply the competencies of entrepreneurs
18MBA3PCED in real time
CO2-Evaluate a business opportunity, recognize
the sources of various funding and create a
business plan
CO3-Analyse and interpret different
Government schemes
CO4-Decipher the intricacies of family business
and Social Enterprise
HR SPECIALIZATION -FUNCTIONAL
ELECTIVES
1. RECRUITMENT & SELECTION- CO1-Apply the key concepts of recruitment and
18MBA3FHRS selection to evaluate applicants fairly and in an
unbiased manner
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

CO2-Critically think in adopting appropriate

tools for evaluating recruitment and selection
methods
CO3-Analyze the importance of Recruitment
and selection thus enabling them to design
recruitment advertisement
CO4-Deploy right person to the right position
thus helping in accomplishing the aims of
organization
CO5-To nurture research skills in Recruitment
and selection through assignments and
presentations.
2.COMPENSATION MANAGEMENT - CO1-Understand the concepts of compensation
18MBA3FHCM system followed in the organisation
CO2-Analyse the economic, legal, strategic and
ethical aspects of pay systems in any industry
and organizations
CO3-Design a compensation package for
employees of different level and sectors
CO4-Analyse the role of government and
taxation process related to compensation
3. LEGAL ENVIRONMENT & INDUSTRIAL CO1-Understand the Indian Legal and
LEGISLATIONS - 18MBA3FHLI Regulatory Environment and learn to apply the
appropriate labour laws to protect the interest
of both employees and employers
CO2-Cultivate value based leadership
capabilities to drive business
CO3-Develop critical thinking skills to ensure
justice to the different stake holders
CO4-Assess the legal and ethical implications
on business and present the same, orally and
through assignments
4. ORGANIZATION STRUCTURE, PROCESS CO1-Study the logic behind developing
& DESIGN - 18MBA3FHOS Management techniques and Practices so that it
can be applied in various business scenarios
CO2-Develop value based leadership
capabilities necessary to improve
Organizational Effectiveness
CO3-Develop critical thinking skills to help
them make appropriate business decisions
CO4-Analyse the business situation and use the
appropriate management techniques
5. KNOWLEDGE MANAGEMENT - CO1-Understand the fundamental concepts in
18MBA3FHK M the study of knowledge and its creation,
acquisition, representation, dissemination, use
and re-use, and management
CO2-Apply KM cycles and tools for the
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

advantage of organization functioning

CO3-Critically evaluate the KM practices across
different sectors
CO4-Create communities of practice for KM
sharing through a common platform
6. EMPLOYEE RETENTION MANAGEMENT - CO1-Understand the causes of employee
18MBA3FHER attrition and apply skills to assess if attrition is
controllable or uncontrollable
CO2-Critically analyse the business
environment and take appropriate action to
manage the situation
CO3-Develop critical thinking skills and adopt
appropriate practices to reduce attrition
CO4-Design employee retention strategies
based on the prevailing situation in the
Organisation

HR SPECIALISATION: CROSS FUNCTIONAL ELECTIVES

1. ORGANIZATIONAL LEADERSHIP AND CO1-Understand the dynamics and behaviours
TEAM BUILDING - 18MBA3XHOL of leaders and the team members.
CO2-Foster learning teams in organizations
CO3-Analyse tools and techniques of leading
teams.
CO4-Analyse different leadership styles and
their application in business situations
2. PUBLIC RELATIONS - 18MBA3XHPR CO1-Define and understand the role of PR for
effectiveness and long term Sustainability of
the organization
CO2-Apply the methods of PR for solving the
business issues
CO3-Employ different techniques and
approaches to maintain good relationship with
different external stake holders.
CO4-Analyse situations and know how to
communicate to all the stake holders during a
crisis

MARKETING SPECIALIZATION FUNCTIONAL ELECTIVES

1. CONSUMER BEHAVIOUR - CO1-Apply Knowledge of consumer behavior
18MBA3FMCB principles, theories, concepts and techniques to
solve business problems
CO2-Classify the different consumer behaviour
and their impact on purchasing decisions
CO3-Propose the effectiveness of various
advertisement and promotions and their
attempts to influence the behaviours of
individuals across various aspects of business
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

CO4-Asses the consumer buying behavior with

the help of a course project/ assignment as a
team
2. BUSINESS MARKETING - 18MBA3FMBM CO1-Understand the theory & apply the
concepts of B2B markets.
CO2-Analyse the purchase situation of an
organization and associated interpersonal
relationships.
CO3-Analyse the marketing mix of a B2B
entity.
CO4-Present a report on the business
marketing scenario of an organization in
industrial market.
3. MARKETING RESEARCH - CO1-Apply knowledge of marketing research
18MBA3FMMR principles in conducting exploratory research to
define the research problem of a business.
CO2-Interpret and conduct a small survey,
applying a wide range of scale, and
questionnaire techniques to analyze business
aspects.
CO3-Recommend the best sampling technique
for different situations and defend that
recommendation to foster research skills.
CO4-Create a frequency distribution and a
cross-tabulation, conduct basic statistical
analysis on the data, and summarize the
results in clear language for data based
decision making
4. SERVICES MARKETING - 18MBA3FMSM CO1-Understand the theory & apply the
concepts of Service Marketing.
CO2-Analyse the various GAPs in services using
a GAP model and various ways to solve them.
CO3-Evaluate the importance of Service
triangle and the role played by in services.
CO4-Present a SERVQUAL report for a service.
5. MARKETING METRICS - 18MBA3FMMM CO1-Apply the knowledge of marketing metrics
practices to solve business problems.
CO2-Foster marketing metrics to functional and
organizational strategy with data based
decision making.
CO3-Define key metrics related to consumers,
markets, branding and finance to understand
and analyze global, economic aspects of
business
CO4-Ability to create marketing metrics
dashboard and identify metrics suitable for
achievement of organizational goals.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

6. PRODUCT MANAGEMENT- CO1-Apply the knowledge of product

18MBA3FMPM management concepts, theories to solve
business problems.
CO2-Use portfolio analysis and the product life
cycle to understand how a firm manages its
product mix for decision making.
CO3-Apply and understanding the role of
product manager in pricing, sales, and
promotion in the aspects of business.
CO4-Devise new product development process
which in turn develops entrepreneurial thinking
and business acumen through a team based
course project

MARKETING SPECIALISATION CROSS FUNCTIONAL ELECTIVES

1. SALES MANAGEMENT - 18MBA3XMSM CO1-Apply the concepts of Sales Management
in business and summarize the selling skills and
sales process
CO2-Apply Selling strategies and adopt the
best solution to a given business problem
CO3-Compare the different recruitment and
compensation strategies
CO4-Building sales plan and critique the same
for any organization
2. EVENT MARKETING & MANAGEMENT - CO1-Describe the importance and understand
18MBA3XMEM the marketing strategies of Event Marketing
CO2-Apply Internet to Event Marketing and
develop strategies
CO3-Explore the different sources of funding
for Events, critique the different options and
adopt the best feasible event to the
requirement of the business
CO4-Effectively plan and defend Event
Marketing Programs for any type of business

FINANCIAL MANAGEMENT Functional Electives

SPECIALIZATION
1. ADVANCED FINANCIAL MANAGEMENT - CO1-Apply various financial management
18MBA3FFAF decisions in their business.
CO2-Analyze risks involved and thereby assess
optimal capital structure and dividends in
various project decisions.
CO3-Understand various contemporary issues
in managing business/sick units
CO4-Develop research skills in the area of
financial management.
2. INVESTMENT MANAGEMENT - CO1-Understand the capital market and various
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

18MBA3FFIM Instruments for Investment.

CO2-Assess the risk and return associated with
investments and value securities.
CO3-Analyze the Economy, Industry and
Company framework for Investment
Management.
CO4-Learn the theories of Portfolio
management and also the tools and techniques
for efficient portfolio management.
3. Financial Reporting - 18MBA3FFFR CO 1-Students shall understand various
dimensions of financial reporting.
CO 2-Students shall apply the knowledge of
financial reporting to prepare various financial
statements.
CO 3-Develop critical thinking skills to analyze
the financial soundness of the business.
CO 4-Students shall communicate International
accounting standards and contemporary issues
in Accounting.
4. RISK MANAGEMENT & INSURANCE - CO1-Identify and measure Individual and
18MBA3FFRI Business risk
CO2-Evaluate Life Insurance subscription
decisions
CO3-Analyze and compare General Insurance
products
CO4-Research on the functioning and pricing of
insurance companies
5. MICRO FINANCE - 18MBA3FFMF CO1-Understand of role of Microfinance in
addressing the problem of poverty and income
generating activities to the poor people.
CO2-To appreciate the Financial Institution’s
and NGOs as partners in socioeconomic
development process of the poor.
CO3-To develop leadership skills by tackling
complex social issues from a policy perspective.
CO4-To analyze the various reasons for the
existence of MFIs, and the challenges MFI.
6. MERCHANT BANKING& FINANCIAL CO1: Understand the Indian Financial System.
SERVICES - 18MBA3FFMB CO2: Assess the nature of services offered by
Merchant bankers in India.
CO3: Examine various services offered by
NBFCs.
CO4: Evaluate various financial services for
decision making.

FINANCIAL MANAGEMENT ELECTIVES CROSS FUNCTIONAL ELECTIVES

1. VENTURE CAPITAL FINANCING - CO1-Identify various sources of financing for a
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

18MBA3 XFVC firm including Venture capital

CO2-Analyze the appropriate venture funding
requirement in the right phase of business
CO3-Create and interpret term sheets for
venture capital financing and do due diligence
CO4-Research and do Valuation of a company
and use it to negotiate a venture capital
investment
2. PRINCIPLES & PRACTICE OF BANKING CO1-Apply knowledge of Principles and Practice
- 18MBA3XFPB of banking in banking operations.
CO2-Develop the ability to manage operations
of banking.
CO3-Analyze various current and changing
scenario of Indian banking sector with respect
to structure, customer relationship , regulation,
banking technology and international banking
CO4-Identify and assess the impact of
development in the literature on banking sector

Course Outcomes (COs) – 4th Sem CORE PAPER

1. STRATEGIC MANAGEMENT - CO1-Apply knowledge of strategic management
18MBA4PCSM theories and concepts to solve business
problems
CO2-Ability to foster critical thinking abilities
for decision making with the use of case studies
CO3-Ability to appreciate and develop value
based leadership
CO4-Ability to understand, analyse and
communicate global, economic and ethical
aspects of business using business strategies
CO5-Lead themselves and others in
achievement of organizational goals and
contributing to the team environment through
presentations.
HUMAN RESOURCES MANAGEMENT FUNCTIONAL ELECTIVES
1. LEARNING & DEVELOPMENT - CO1-Understand the concepts related to
18MBA4FHLD Training and development in the organization.
CO2-Design a training environment which can
maximize learning in the organization.
CO3-Analyse and evaluate the economic and
strategic aspects of training programs
CO4-Develop Leadership ability through
employee development and career
management.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

2. STRATEGIC TALENT MANAGEMENT - CO1-Understand the concepts related to talent

18MBA4FHST management in the organization.
CO2-Apply the competency mapping to solve
business problems
CO3-Apply performance management theories
and practices to solve organization problems
CO4-Analyse the economic, legal, strategic and
ethical aspects of performance management
system
3. ORGANIZATIONAL DEVELOPMENT - CO1-Understand the concepts related to
18MBA4F HOD Change Management and apply it in various
business scenarios
CO2-Develop value based leadership
capabilities to drive change in an Organization
to improve effectiveness.
CO3-Inculcate critical thinking skills to make
appropriate Change Management decisions
CO4-Analyze the business situation where
change is necessitated and recommend the
necessary action
4. INTERNATIONAL HUMAN RESOURCE CO1-Apply the strategies of IHRM in business
MANAGEMENT - 18MBA4FHIH organizations/specific functional areas
CO2-Analyse the differences between domestic
and International HR activities.
CO3-Identify and analyse social, cultural and
global issues around IHRM
CO4-Deliver presentations and seminars by
distinguishing the features of IHRM across
different countries.
5. MANAGERIAL COUNSELING - CO1-Understand the significance of counselling
18MBA4FHMC and counsellors at work place
CO2-Apply techniques of counselling in real
organizational problems
CO3-Analyse problems for counselling, thus
employ effective communication styles
CO4-Identify and evaluate ethical standards in
the process of counselling
6. HR ANALYTICS - 18MBA4FHHA CO1-Understand the prominence of numbers in
HRM
CO2-Apply statistical tools for business
outcomes in HR analytics
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

CO3-Analyse the outcomes of HR analytics and

assist the decision making process
CO4-Apply SPSS for different cases of HR
analytics.

HUMAN RESOURCES MANAGEMENT CROSS FUNCTIONAL ELECTIVES

1. PERSONAL GROWTH & CO1-Identify and understand the strengths and
INTERPERSONAL EFFECTIVENESS - weaknesses as individual, as a member of a
18MBA4XHPG group/organization using personality typing and
personality theories
CO2-Apply habits of personal effectiveness to
be a better leader
CO3-Critically thinking and use appropriate
tools and communicate for better interpersonal
relations
CO4-Design transactions and scripts to make
the effective organizational team
2. WORK ETHICS - 18MBA4XHWE CO1-Understand the meaning of good ethics,
doing things right and the obstacles to making
good ethical decisions
CO2-Identify ethical issues in human resource
management
CO3-Critically think and identify privacy issues
in workplace
CO4-Design a code of conduct for business
organization.

MARKETING MANAGEMENT FUNCTIONAL ELECTIVES

1. RURAL MARKETING - 18MBA4FMRM CO1-Apply knowledge of rural marketing
principles, theories, concepts and techniques to
solve rural business problems.
CO2-Analyze the consumer behavior in the
rural areas through research.
CO3-Assess the marketing of Agri Input and
output and develop entrepreneurial thinking.
CO4-Analyze, apply the concepts to design,
distribution, communication strategy and
marketing plan in rural area.
2. MARKETING CHANNEL MANAGEMENT - CO1-Apply the knowledge and practices that
18MBA4FMCM involved with the development of channel
structure, the management of intermediary,
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

and the coordination among channel members

to solve business problems.
CO2-Appreciate the strategic value of
managing a portfolio of distributors effectively
for aspects of business
CO3-Classify the strengths and weaknesses of
various channels and partnerships for decision
making
CO4-Lead themselves and others to develop
strategic implications of marketing channels
related to other marketing mix with case
studies/ assignments.
3. INTEGRATED MARKETING CO1-Apply knowledge of marketing
COMMUNICATIONS - 18MBA4FMIC communication theories and practices to solve
marketing communication problems.
CO2-Understand, analyse, communicate global,
economic, legal, and ethical aspects of business
CO3-Lead themselves and others in the
achievement of marketing communication
goals.
CO4-Create a video ad for a product/service.
4. RETAIL MANAGEMENT - 18MBA4FMRE CO1-Apply the concepts of retailing into
business practices
CO2-develop critical & logical thinking with the
help of case studies and articles
CO3-Evaluate the various strategies adopted by
the retailers and make an informed choice.
CO4-Assess the theoretical applications in retail
outlets through a team based course project
and submit a formal report.
5. INTERNATIONAL MARKETING - CO1-Develop an understanding of the major
18MBA4FMIM issues related to International Marketing
CO2-Develop skills in researching and
analyzing trends in global markets and in
modern marketing practice
CO3-Assess, plan and critique an organization’s
ability to enter and compete in international
markets.
CO4-Devise and Judge strategies for
International marketing scenarios from India’s
point of view
6. STRATEGIC MARKETING - CO1-Apply knowledge and theories of
18MBA4FMSM marketing strategy to solve business problems.
CO2-Appreciate the differences in marketing
environment and changes in strategy to enable
critical thinking abilities for decision making
using case studies
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

CO3-Understand the role of marketing

information systems in building marketing
strategies to achieve organizational goals
CO4-Build a marketing plan& develop
entrepreneurial thinking with the help of a
course based project/ assignment

MARKETING MANAGEMENT CROSS FUNCTIONAL ELECTIVES

1. STRATEGIC BRAND MANAGEMENT - CO1-Apply the knowledge of principles,
18MBA4XMBM concepts, and models of branding to solve
business problems
CO2-Grasp the significance of brand
management with other marketing decision
making process
CO3-Assess the issues related to developing
and maintaining brand values with global, legal
and ethical aspects of business.
CO4-Create a brand including positioning and
marketing communication with a team based
course project
2. E-MARKETING - 18MBA4XMEM CO1-Apply knowledge of E-marketing theories
and practices to solve business problems
CO2-Foster Analytical and critical thinking
abilities for data based decision making
CO3-Understand, analyse, communicate global,
economic, legal, and ethical aspects of E-
marketing
CO4-Create a website with provided
parameters

FINANCIAL MANAGEMENT FUNCTIONAL ELECTIVES

1. MERGERS, ACQUISITIONS AND CO1-Assess the value creation of various
CORPORATE RESTRUCTURING - corporate restructuring activities
18MBA4FFMA CO2-Analyze M&A transactions and deal
financing
CO3-Research and Valuation of a company pre
and post M&A activity
CO4-Comprehend the legal issues in M&A’s
2. DERIVATIVES - 18MBA4FFDR CO1-Apply knowledge of derivatives to solve
business problems in financial risk
CO2-Demonstrate an understanding of the use
of financial engineering and risk management
approaches and techniques used in modern
organizations.
CO3-Make informed judgements on the use of
derivative instruments
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

CO4-Identify and assess the impact of

development in the literature on derivatives
through research.
3. STRATEGIC CREDIT MANAGEMENT - CO1-Apply the concept of credit management
18MBA4FFSC keeping in banking operations
CO2-Develop analytical skills for lending
decisions.
CO3-Analyse various financing schemes related
to agriculture, retail loans and SMEs.
CO4-Identify and assess the impact of
development in the literature on credit
Management
4. INTERNATIONAL FINANCIAL CO1-Understand the International Financial
MANAGEMENT - 18MBA4FFIF System Foreign Exchange market and its
components.
CO2-Apply the theories of International Finance
in Business.
CO3-Foster analytical thinking on derivative
trading strategies in foreign exchange risk
management
CO4-Evaluate and assess the Firm’s Exposure
to risk in International environment using
problems and cases.
5. TAX MANAGEMENT - 18MBA4FFTM CO1-Understand the provisions of tax
assessment in Indian Scenario.
CO2-Apply their knowledge in assessing tax
liability of an Individual.
CO3-Analyze and evaluate the information for
the calculation of the taxable income of a
business or profession or a firm.
CO4-Communicate effectively the Indian
Income Tax Information.
6. PROJECT APPRAISAL, PLANNING & CO1: Develop project plans and appraise
CONTROL - 18MBA4FFPA projects for business development
CO2: Analyze and manage project risks
CO3: Evaluate various sources of financing for
a project
CO4: Research on project performance, project
closure or abandonment situations

FINANCIAL MANAGEMENT CROSS FUNCTIONAL ELECTIVES

1. PERSONAL FINANCE - 18MBA4XFPF CO1-Evaluate various savings plans, consumer
credit and purchasing decisions including
housing
CO2-Take optimal Life and General Insurance
subscription decisions
CO3-Analyze retirement plans and estate
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MANAGEMENT STUDIES AND RESEARCH CENTRE

planning mechanisms
CO4-Research for personal investment,
portfolio and tax planning
2. COST MANAGEMENT - 18MBA4XFCM CO1-Apply the concept of cost management
techniques to solve business problems
CO2-Analyze and interpret the costing
information
CO3-Evaluate the cost information for cost
ascertainment , planning , control and decision
making to achieve organizational goals
CO4-Present the changing scenario in the area
of cost management through both oral and
written communication
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

Name of the Programme Master of Computer Applications

PEOs PEO 1: Pursue professional career in the domain of Computer
Applications in industry or academia.
PEO 2: Engage in upgradation of their professional skills
leading to certification/higher qualification.
PEO 3: Demonstrate professional behavior while performing
in diverse teams, communicate effectively and contribute to
the society.
(POs) PO1: Computational Knowledge: Apply computing
knowledge, mathematical knowledge and domain knowledge
to identify and capture requirements of specific problems.
PO2: Problem Analysis: Analyze and develop models for
specific problems using principles of mathematics, computing
sciences and relevant domains.
PO3: Design/Development of Solutions: Design, implement,
test and maintain solutions for systems, components or
processes that meet specific needs with consideration for
safety, societal and environmental issues.
PO4: Conduct investigations of Complex Computing
Problems: Conduct required experiments, generate, analyze
and interpret the data to draw valid conclusions.
PO5: Modern Tool Usage: Adapt the techniques, skills and
modern tools necessary for solving complex computing
problems with an understanding of their limitations.
PO6. Professional Ethics: Understand and commit to
professional ethics and cyber regulations, responsibilities, and
norms of professional computing practice.
PO7. Life‐long Learning: Recognize the need, and have the
ability, to engage in independent learning for continual
development as a computing professional.
PO8. Project management and finance: Demonstrate
knowledge and understanding of the computing and
management principles and apply these to one’s own work, as
a member and leader in a team, to manage projects and in
multidisciplinary environments.
PO9. Communication Efficacy: Communicate effectively with
the computing community, and with society at large, about
complex computing activities by being able to comprehend and
write effective reports, design documentation, make effective
presentations, and give and understand clear instructions.
PO10. Societal and Environmental Concern: Understand
and assess societal, environmental, health, safety, legal, and
cultural issues within local and global contexts, and the
consequential responsibilities relevant to professional
computing practice.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

PO11. Individual and Team Work: Function effectively as an

individual and as a member or leader in diverse teams and in
multidisciplinary environments.
PO12. Innovation and Entrepreneurship: Identify a timely
opportunity and using innovation to pursue that opportunity
to create value and wealth for the betterment of the individual
and society at large.

(COs) 1. Unix & Advanced C Programming ‐ 18MCA1PCUC

CO1: Describe the concepts of C & UNIX.
CO2: Apply the concepts of UNIX and C to solve computing
problems.
CO3: Analyze a problem and obtain a solution.
CO4: Implement programs using C & UNIX for a given problem.

2. Computer Organization ‐ 18MCA1PCCO

CO1: Describe the organization of Digital Computer.
CO2: Apply the concepts of Computer Organization for a given
problem.
CO3: Design memory organization for a computing system.
18MCA1BSDM: Discrete Mathematics
CO1: Demonstrate the concepts of Discrete Mathematical
Structures.
CO2: Apply the concepts of Discrete Mathematical Structures
to solve problems.
CO3: Formulate a recurrence relation for a given sequence of
numbers/pseudocode adopting counting principles.
CO4: Work in a team and solve the given set of problems.

3. Discrete Mathematics ‐ 18MCA1BSDM

CO1: Demonstrate the concepts of Discrete Mathematical
Structures.
CO2: Apply the concepts of Discrete Mathematical Structures
to solve problems.
CO3: Formulate a recurrence relation for a given sequence of
numbers/pseudocode adopting counting principles.
CO4: Work in a team and solve the given set of problems.

4. Web Application Development ‐ 18MCA1PCWD

CO1: Describe the concepts of web programming, client side
and server side scripting
CO2: Apply the knowledge of client and server‐side
technologies using structured and unstructured data.
CO3: Analyze the impact of the Web components, client side
and server side scripting techniques for building web pages.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

CO4: Design and validate web pages using scripting languages

for a given scenario
CO5: Implement programs using web development
technologies for various use cases.

5. Operating System ‐ 18MCA1PCOS

CO1: Explain the structure and concepts of an Operating

System
CO2: Apply the Algorithmic techniques to solve problems
related to Operating System.
CO3: Implement the concepts related to Operating System
CO4: Perform in a team to simulate different Operating System
concepts

6. Professional Communication and Ethics ‐ 18MCA1HSPE

CO1: Explain concepts of Oral & Written communication

CO2: Apply oral & written communication skill for various use
cases.
CO3: Perform in a team, to prepare a report & make an
effective oral presentation on topics related to legal, ethical,
society, environment & health issues

7. Computer Networks ‐ 16MCA3DCN1

CO1: Define and Explain concepts related to Computer
Networks.
CO2: Apply the Network parameters/Algorithms/Protocols for
given problem.
CO3: Conduct experiments to demonstrate concepts related to
Computer networks using a network Simulation tool.
CO4: Perform in a team, submit a report on the impact of
Computer Networks on health and environment.
8. Java Programming‐I ‐ 16MCA3DCJ1
CO1: Demonstrate an understanding of platform independent
Java programming.
CO2: Analyze the given scenario and use appropriate concepts
to develop Java Programs.
CO3: Design and Develop programs using the Java Collection
and libraries.
CO 4: Conduct experiments using Java Programming language.

9. Object Oriented Modeling & Design ‐ 16MCA3DCOM

CO 1: Describe Object Oriented Modeling and Design concepts.
CO 2: Apply Object oriented modeling and design concepts for
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

a given scenario
CO 3: Design UML diagrams for a scenario.
CO 4: Choose an appropriate design pattern and solve the real
world scenarios using modern tool.

10. Data Science ‐ 16MCA3DCDA

CO1: Explain the concepts related to data science.
CO2: Apply Pre‐processing techniques for the data related to a
scenario.
CO3: Devise Data Analytic models for a scenario.
CO4: Interpret the data to draw conclusions related to a
scenario under study.

11. Agile Software Development ‐ 16MCA3DEAS

CO 1 Describe agile methods and driving forces for taking an
Agile approach to software development.
CO 2: Apply best practices to manage Agile projects.
CO 3: Formulate project backlogs, measure and monitor the
velocity for a given scenario.
CO 4: Choose a tailored Agile process that best fits the
technical and market demands of a modern software project.

12. Operations Research ‐16MCA3DEOR

CO 1: Explain the concepts of operation research.
CO 2: Formulate a mathematical model for a given problem.
CO 3: Apply different linear programming techniques to solve
the mathematical model.
CO 4: Choose a suitable technique and solve the problems
related to transportation, assignment and Game theory.
CO 5: Apply CPM and PERT techniques to plan, schedule, and
control project activities.

13. UNIX System Programming ‐16MCA3DEUP

CO1: Explain the concepts of Unix System Programming.
CO 2: Apply UNIX/POSIX standards for solving problems.
CO 3: Implement Unix commands using Unix System
programming API’s

14. Seminar–I ‐16MCA3DCS1

CO1: Present topics in Computer Science to address Legal,
ethical, Societal, Environmental, and Health issues.
CO2: Apply professional ethics during preparation of report.
CO3: Demonstrate life‐long learning skills.
CO4: Demonstrate oral and written communication skills.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

15. Software Project Management ‐ 16MCA5DCSP

CO1: Explain the concepts related to Software project

management.
CO2: Apply the principles of Software project management.
CO3: Identify the impact of Stress, Health, Safety, Ethical,
Professional etc., concerns of a Software professional
CO4: Develop artifacts related to project management in a
team.

16. Windows Application Development with C#.NET ‐

16MCA5DCWD
CO1: Describe the features of .NET framework.
CO2: Apply the object oriented Concepts to develop interactive
C# programs.
CO3: Design and develop web based applications using C# and
ASP.NET
CO4: Perform in a team to prepare a report for developing an
application

17. Mini Project‐ 16MCA5DPMP

CO1: Formulate the problem and identify the requirements /
objectives
CO2: Design a suitable model for the problem formulated
CO3: Select appropriate tools/ technologies/ concepts to solve
the problem.
CO4: Demonstrate project management principles.
CO5: Write a report and communicate effectively through oral
presentation in a team.

18. Mobile Ad Hoc & Sensor Networks ‐16MCA5DEMN

CO1: Explain the concepts of Wireless Communication, Ad hoc

and Wireless Sensor Networks.
CO2: Apply the knowledge of routing protocols and design
issues in Ad Hoc Networks and Wireless Sensor Networks for a
given network scenario
CO3: Choose an appropriate parameter, routing protocols /
algorithm for a given ad hoc network or Wireless Sensor
Network
CO4: Work in team to prepare a report on the challenges in
Wireless Sensor Networks for different real world use cases
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

19. Web Services ‐16MCA5DEWS

CO1: Describe the concepts of Web Services
CO2: Apply Web services concepts for a given scenario
CO3: Work in a team to present a case study on Web services

20. Soft Computing‐16MCA5DESC

CO1: Demonstrate the understanding of soft computing
concepts
CO2: Apply soft computing techniques to solve problems
CO3: Analyze and Develop neural networks/fuzzy Logic to
implement logical/ Mathematical functions
CO4: Design computing systems by using appropriate Soft
Computing technique.
CO5: Implement Soft Computing techniques to solve a problem
using modern tools in a team.

21. Advanced Computer Networks‐16MCA5DEAN

CO1: Describe concepts related to Computer Networks.

CO2: Apply the networking concepts for a given problem.
CO3: Design a solution for a given network scenario.
CO4: Demonstrate Networking concepts using Modern Tools
through a group activity.

22. Enterprise Resource Planning ‐ 16MCA5DERP

CO1: Demonstrate the concepts of Enterprise Systems.
CO2: Apply the ERP concepts for a case study.
CO3: Identify the functional modules of an ERP system;
CO4: Analyze the ERP concepts & process for a given case
study in a team.

23. Mobile Applications ‐16MCA5DEMA

CO1: Describe the components of mobile application
development.
CO2: Apply the computing knowledge in developing Android
applications.
CO3: Design the mobile application for a given problem.
CO4: Develop a mobile application in a team and submit a
report.

24. Machine Learning ‐16MCA5DEML

CO1: Explain the concepts of Machine Learning
CO2: Apply Machine learning concepts for a scenario.
CO3: Develop machine learning models for a scenario
CO4: Interpret the data to draw conclusions related to a
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

scenario.

25. Organizational Behavior ‐16MCA5DEOB

CO1: Demonstrate the concepts of organizational behavior.

CO2: Apply concepts of organization behavior for different
cases and issues.
CO3: Perform in a team as a team leader or a member in
decision making process of the organization
CO4: prepare a report and make an effective oral presentation
on the given scenario.

26. Object Oriented Programming with C++ ‐ 18MCA2PCOP

CO1. Describe the features of Object Oriented concepts in C++
CO2. Apply object oriented concepts to solve computing
problems.
CO3: Analyse the problem and obtain a solution.
CO4: Develop Programs for a use case using any modern tools.

27. Data Structures using C ‐ 18MCA2PCDS

CO1: Explain the concepts of data structures
CO2: Apply concepts of data structures for various problems
CO3: Implement data structures, sorting and searching
methods using C
CO4: Solve a problem in teams by choosing an appropriate
data structure through an open ended experiment

28. Database Management System ‐ 18MCA2PCDB

CO1: Explain the concepts of Database system.
CO2: Apply the concepts of relational Database for a scenario.
CO3: Analyze and develop Data models for a scenario.
CO4: Formulate and implement queries, using a RDBMS
package.
CO5: Design and build simple real‐world database applications
in a team and prepare a report.

29. Statistics ‐ 18MCA2PEST

CO1: Explain the Concepts of Statistics
CO2: Solve problems using various statistical concepts.
CO3: Analyze the data using statistical techniques
CO4: Design prediction model for a given data using
Regression.
CO5: Interpret the data for various scenarios or contexts.

30. Operations Research ‐ 18MCA2PEOR

B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

CO1: Explain the concepts of operation research.

CO2: Apply different linear programming techniques to solve
the mathematical model.
CO3: Formulate a mathematical model for a given problem.
CO4: Apply CPM and PERT techniques to plan, schedule, and
control project activities.

31. Software Engineering ‐ 18MCA2PCSE

CO1: Explain the concepts of Software Engineering
CO2: Apply the concepts of requirement engineering to
prepare SRS document.
CO3: Analyse various models in software design
CO4: Estimate Software Costs for a given scenario
CO5: Describe professional and ethical responsibilities of a
Software Engineer

32. Entrepreneurship ‐ 18MCA2HSES

CO1: Explain the concept of Innovation & Entrepreneurship
CO2: Apply the knowledge of entrepreneurship to various
scenarios
CO3: Perform in a team, to prepare a report & make effective
oral presentation on topics related to Entrepreneurship

33. Seminar ‐1‐18MCA2SRS1

CO1: Present a topic in Computer Science to address Legal,
Ethical, Societal, Environmental, and Health issues
CO2: Apply professional ethics during preparation of report.
CO3: Demonstrate life‐long learning skills.
CO4: Demonstrate oral and written communication skills.

34. Analysis and Design of Algorithms ‐16MCA4DCAD

CO1. Demonstrate the understanding of Algorithmic design
concepts.
CO2. Apply algorithmic design techniques for a given problem.
CO3. Analyze algorithm for its correctness / time complexity
CO4. Implement an Algorithm either using C or C++.
CO5. Develop an Algorithm and prepare a report for a problem
in a team.

35. Web Application Development‐II ‐ 16MCA4DCW2

CO1. Demonstrate the programming concepts of python.
CO2. Apply the object‐oriented approach in python
programming.
CO3: Analyse the problem and obtain a solution.
CO4: Implement & validate Program using modern tools.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

CO5: Build web application with graphical user interfaces and

database.

36. Java Programming‐II‐16MCA4DCJ2

CO1: Demonstrate an understanding of event‐driven
programming with database.
CO2: Analyze and develop Web applications using appropriate
technologies.
CO3: Design and develop distributed applications.
CO4: Implement programs using J2EE Technologies.
CO5: Work in team to analyze J2EEbased applications and
articulate effectively.

37. Simulation & Modeling ‐16MCA4DESM

CO1: Explain the concepts of simulation and modeling

CO2: Apply modeling techniques for discrete event simulation
CO3: Design a simulation model for a given scenario
CO4: Interpret the simulation results and draw inferences for a
given input/output model
CO5: Adapt modern tools to simulate a system in a team and
write a report.

38. Software Testing ‐16MCA4DEST

CO1: Demonstrate the concepts of Software testing
CO2: Apply software testing techniques for a given problem.
CO3: Design test plan & test cases for a given problem.
CO4: Perform in a team to prepare a test report for a chosen
use case.

39. Mobile Computing & Wireless Communication‐

16MCA4DEMC
CO1: Understand the concepts of Mobile Computing and
Wireless Communication.
CO2. Apply the knowledge of various access technologies and
frameworks of Wireless Networks.
CO3. Analyze the impact of security protocols, algorithms for
Mobile Computing Environment and Wireless Networks.
CO4. Design a process to aid in migrating from the desktop
environment to smart client environment.
CO5. Perform in a team to prepare a report on impact of
package and billing in different Wireless Networks.

40. Big‐Data Analytics and NOSQL‐16MCA4DEBA

CO1: Explain the concepts of Big Data and NoSQL databases.
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

CO2: Apply Big Data concepts for a scenario.

CO3: Apply NoSQL for Data Management.
CO4: Design a Map‐Reduce model to process the data for a use
case and write a report.

41. Cloud Computing ‐16MCA4DECC

CO1: Describe the concepts of cloud computing and
technologies.
CO2: Apply the cloud computing principles for a given scenario
CO3: Identify the appropriate cloud services or security
implications for a given application.
CO4: Work in a team to analyze cloud services and write a
report.

42. Internet of Things‐6MCA4DEIT

CO1: Explain the concepts of Internet of Things (IoT).
CO2: Apply the knowledge of IoT architecture, framework for a
specific scenario.
CO3: Identify issues and design challenges in IoT applications
CO4: Develop an IoT prototype related to the societal or health
or environment needs in a team to prepare a poster.

43. Seminar‐II ‐16MCA4DCS2

CO1: Identify the best method among a set of research findings.
CO2: Apply professional ethics during preparation of report.
CO3: Demonstrate life‐long learning skills.
CO4: Demonstrate oral and written communication skills.

44. Cyber Regulations & Professional Ethics ‐16MCA4DCCR

CO1: Understand, define and explain the need of Cyber Law
and E‐Commerce in the CyberSpace
CO2: Apply the knowledge of Cyber Law, privacy issues and
the parameters of professional ethics for a given scenario.
CO3: Analyze the impact of Cyber law and Information
technology on the productivity and quality of life in IT
industry.
CO4: Perform in a team to prepare a use case and make an
effective oral presentation on topics related to legal and health
issues.

45. Internship ‐ 16MCA6DPIP

CO1: Analyse the problem and identify the requirements /
objectives
CO2: Adhere to Professional behavior while interacting with
B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MASTER OF COMPUTER APPLICATIONS

people in the organization

CO3: Function effectively to engage in independent learning
CO4: Write a report and communicate effectively
CO5: Demonstrate the importance of Legal, Societal,
Environmental and Health issues related to Technologies
CO6: Work effectively as a member in a team
CO7: Explain the principles of Entrepreneurship used in
Industry.

46. Project Work ‐ 16MCA6DPPW

CO1 Apply the computing knowledge for the chosen problem
domain
CO2 Analyze the problem and identify the requirements /
objectives
CO3 Design and develop a model / process / algorithm
CO4 Conduct required experiments and validate the input and
draw valid conclusions
CO5 Implement using appropriate software tools / technology
CO6 Adhere to ethics during the project development
CO7 Function effectively to engage in independent learning
CO8 Apply the principles of project management
CO9: Prepare a report and poster, and demonstrate the project
CO10: Identify Legal/ Ethical/ Societal/ Health or
Environmental issues related to project work.
CO11: Perform in a team while carrying out a project work.
CO12: Generate ideas and identify the business model to
convert the project work into a product.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF PHYSICS

Name of the Programme Engineering Physics

Course Code 18PY1BSPHY & 18PY2BSPHY

Programme Outcomes (POs)

PO1: Apply the knowledge of mathematics, science,
arts and management principles to the
solution of complex problems.

PO4 : Create, select, and apply appropriate

techniques, resources, and modern IT tools including
prediction and modeling to complex activities with an
understanding of the limitations.

Course Outcomes (COs) CO1: Understand and explain the principles of

quantum mechanics, transport phenomena, dielectric
and semiconductor material properties of solids, laser
and optical fiber and concept of vibrations.

CO2: Apply the principles of quantum mechanics,

transport phenomena, dielectric and semiconductor
material properties of solids, laser and optical fiber and
types of vibrations to obtain a desired parameter.

CO3: Conduct, analyze and interpret the data and

results from applied physics experiments.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CHEMISTRY

Name of the Programme B.E. (All branches) UG Programme – I & II Semester

2018-19: 18CY1BSCHY / 18CY2BSCHY
Engineering Chemistry
Programme Specific Outcomes (PSOs) NA
Programme Outcomes (POs) PO1 to PO12
Course Outcomes (COs) On completion of the course, the student will have the
ability to:
CO 1 Understand and explain the principles of chemistry
involved in water treatment, electrochemistry, corrosion
and its control, conventional energy sources,
electrochemical and renewable sources of energy,
polymers, nanomaterials and instrumental methods of
analysis.
CO 2 Apply the acquired knowledge to solve the Engineering
Chemistry problems.
CO 3 Analyse the Engineering Chemistry problems and draw
meaningful inferences
CO 4 Conduct, analyse and interpret the data and results from
Engineering Chemistry experiments.

Name of the Programme B.E. (All branches) UG Programme – VII Semester

2018-19: 17CY7IENMA
Nanomaterials - Synthesis, Characterization And
Applications
Programme Specific Outcomes (PSOs) NA
Programme Outcomes (POs) PO1 to PO12
Course Outcomes (COs) At the end of the course the student will have:
CO 1 An ability to understand and explain nanoscale materials
and properties, varoius methods of synthesis,
characterization

CO 2 An ability to apply the learnt knowledge and choose

appropriate method to synthesize and characterize
nanomaterials.
CO 3 An ability to application of nanomaterials

Name of the Programme B.E. (All branches) UG Programme – VII Semester

2018-19:17CY7IEEPC
Environmental Pollution and Control
Programme Specific Outcomes (PSOs) NA
Programme Outcomes (POs) PO1 to PO12
Course Outcomes (COs) After completion of course students will have:
CO 1 An ability to identify the components of environmental
ecosystems and effect of water, air, soil pollutant on
them
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF CHEMISTRY
CO 2 An ability to apply pollution control measures on air,
water and soil pollutants
CO 3 An ability to recognize and control environmental issues
in various industries and comprehend engineering
solutions.
Name of the Programme B.E. (All branches) UG Programme – VIII
Semester 2018-19: 17CY8IECSE
Corrosion Science & Engineering
Programme Specific Outcomes (PSOs) NA
Programme Outcomes (POs) PO1 to PO12
Course Outcomes (COs) At the end of the course the student will have:
CO 1 An ability to understand and Explain corrosion principles
and various forms of corrosion and its monitoring and
corrosion control
CO 2 An Ability to apply the learnt knowledge in testing,
monitoring and control of various forms of corrosion
CO 3 An ability to develop methods of science and
engineering in testing, monitoring and control of various
forms of corrosion
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MATHEMATICS AND HUMANITIES

Name of the Programme ENGINEERING MATHEMATICS – 1

(18MA1BSEM1)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1 & PO5
Course Outcomes (COs) Understand the concepts of Calculus and
differential equations.
Apply the concepts of calculus and Differential
Equations to Engineering Problems.
Demonstrate an understanding of the multiple
integrals using alternate tools.

Name of the Programme ENGINEERING MATHEMATICS – 2

(18MA2BSEM2)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1 & PO5
Course Outcomes (COs) Understand the concepts of transforms, partial
differential equations and vector calculus.
Apply the concepts of transforms, partial
differential equations and calculus to Engineering
problems.
Demonstrate an understanding of the Laplace
transforms of functions using alternate tools.

Name of the Programme ENGINEERING MATHEMATICS – 3 (CV & ME)

(15MA3GCMAT)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1 & PO5
Course Outcomes (COs) Compute solution of a system of algebraic
equations.
Demonstrate an understanding to Fourier Series
and Fourier transforms.
Formulate boundary value problems involving one
dimensional heat and wave equation.
Employ analytical techniques to solve partial
differential equations with appropriate boundary
conditions.
Obtain extremal of a functional.

Name of the Programme ADVANCED ENGINEERING MATHEMATICS

(ECE/EEE/EI/ML & TCE)
(15MA3GCAEM)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1, PO2 & PO5
Course Outcomes (COs) Obtain numerical solution of a system of
algebraic equations, algebraic and transcendental
equations and ordinary differential equations.
Formulate boundary value problems involving one
dimensional heat and wave equation.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MATHEMATICS AND HUMANITIES

Solve partial differential equations with

appropriate boundary conditions using the
method of separation of variables.
Construct analytic functions and simple conformal
mappings.
Evaluate real and complex integrals using the
calculus of residues.

Name of the Programme APPLIED MATHEMATICS (BT & CHEM)

(15MA3GCAPM)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1,PO2 & PO5
Course Outcomes (COs) Compute solution of a system of algebraic
equations, algebraic and transcendental
equations, and ordinary differential equations
numerically.
Demonstrate an understanding of Fourier series
and Fourier transforms techniques.
Formulate boundary value problems involving one
dimensional heat and wave equation.
Employ analytical techniques to solve partial
differential equations with appropriate boundary
conditions.
Use calculus of variations to find the extremal of
a functional.

Name of the Programme DISCRETE MATHEMATICS (CSE & ISE)

(15MA3GCDMS)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1, PO2 & PO5
Course Outcomes (COs) Use the notation of set theory.
Construct a Hasse diagram for partial orderings.
Differentiate between a relation and a function.
Recognize certain well known groups.
Apply basic tools of Combinatorics such as sum
and product rules, pigeon-hole principle.
Use graphs as representation tools in a network
analysis.
Understand basic properties of integers, greatest
common divisor, congruence relations and
arithmetic of residue classes.

Name of the Programme HIGHER ENGINEERING MATHEMATICS

(IEM)
(15MA3DCHEM)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1, PO2 & PO5
Course Outcomes (COs) Compute solution of a system of algebraic
equations.
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MATHEMATICS AND HUMANITIES

Demonstrate an understanding to Fourier Series

and Fourier transforms techniques.
Formulate boundary value problems involving one
dimensional heat and wave equation.
Employ analytical techniques to solve partial
differential equations
with appropriate boundary conditions.
Apply Z- transforms techniques to solve
difference equations.
Obtain the extremal of a functional.

Name of the Programme ENGINEERING MATHEMATICS -4 (CV/MECH)

(15MA4GCMAT)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1 & PO5
Course Outcomes (COs) Calculate numerical solutions of algebraic and
transcendental equations, ordinary differential
equations.
Compute solution of one dimensional heat and
wave equation using finite difference techniques.
Construct analytic functions and evaluate real
and complex integrals.
Apply the principles of least squares to fit a
straight line, parabolic and exponential curve for
a given data.
Estimate the relation between two variables and
perform regression analysis.
Apply the basic principles of probability and
probability distributions.

Name of the Programme DISCRETE MATHEMATICS AND PROBABILITY

(ECE/EEE/EI/ML/TCE)
(15MA4GCDMP)

Programme Specific Outcomes (PSOs) --

Programme Outcomes (POs) PO1, PO2 & PO5
Course Outcomes (COs) Understand the notation of set theory, relations
and functions.
Construct a Hasse diagram for partial orderings,
Use many terms associated with graphs and prove
whether two graphs are isomorphic.
Obtain the probability of an event using discrete
and continuous distributions, including the n-step
transition probability.
Analyse and classify simple states
(recurrent/transient).
Understand, derive and apply the properties of
the M/M/m queuing model (properties like
stationary probability, average waiting and
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MATHEMATICS AND HUMANITIES

system time, expected number of customers in

the queue).

Name of the Programme LINEAR ALGEBRA (CSE & ISE)

(15MA4GCLIA)

Programme Specific Outcomes (PSOs) --

Programme Outcomes (POs) PO1 & PO5
Course Outcomes (COs) Solve system of linear algebraic equations.
Demonstrate competence with the ideas of vector
Spaces, subspaces, Basis and dimension.
Obtain the matrix associated with a linear
transformation with respect to given bases.
Understand the relationship between the
operations on linear transformations and their
corresponding matrices.
Compute eigenvalues, eigenvectors and
eigenspaces of matrices.
Apply Gram-Schmidt process to find an
orthogonal base in a subspace of an inner
product space, and to be able to characterize
orthogonal matrices.
Use of Singular value decomposition that finds
applications in signal processing.

Name of the Programme BIOSTATISTICS AND PROBABILITY (BT)

(15MA4DCBSP)

Programme Specific Outcomes (PSOs) --

Programme Outcomes (POs) PO1, PO2, PO3, PO9 & PO10
Course Outcomes (COs) Estimate the closeness of two variables and
prediction of one variable from the other.
Apply the basic principles of probability and
probability distributions to the problems in Bio-
technology.
Apply the concepts of Markov chain to the field
of genetics.
Demonstrate and understanding of sampling and
its various techniques.
To draw inferences about the characteristics of
population from the samples based on the
parametric and non-parametric tests.

Name of the Programme STATISTICS & PROBABILITY (Chemical)

15MA4DCSAP

Programme Specific Outcomes (PSOs) --

Programme Outcomes (POs) PO1, PO2, PO3, PO9 & PO10
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MATHEMATICS AND HUMANITIES

Course Outcomes (COs) Estimate the closeness of two variables and

prediction of one variable from the other. (To
obtain the degree of relationship between two
variables and perform regression analysis).
Apply the basic principles of probability and
probability distributions to the problems in
Chemical Engineering.
Apply the concepts of Markov chain to
Engineering problems. Demonstrate an
understanding of sampling and its various
techniques.
To draw inferences about the characteristics of
population from the samples based on the
parametric and non-parametric tests.

Name of the Programme NUMBER THEORY – INSTITUTIONAL

ELECTIVE
(16MA7IENMT)

Programme Specific Outcomes (PSOs) --

Programme Outcomes (POs) PO1
Course Outcomes (COs) Apply the concept of congruence to compute
system of equations (algebraic equations).
Demonstrate and understanding towards the
nature of different functions.
Demonstrate and understanding primitive roots
and indices.
Apply concept of quadratic congruence to
evaluate quadratic residues and understand
continued fractions.
Identify the nature of large number by means of
different algorithm.

Name of the Programme COMPUTATIONAL GRAPH THEORY –

INSTITUTIONAL ELECTIVE
(16MA7IECGT)

Programme Specific Outcomes (PSOs) --

Programme Outcomes (POs) PO1, PO2 & PO5
Course Outcomes (COs) Demonstrate an understanding of the
fundamental concepts of graph theory including
but not limited to graphs, digraphs, trees, finding
Paths and cycles, planarity, weighted graphs
matching and graph coloring.
Apply appropriate graph algorithms to solve
problems involving transportation, connection,
social networking and scheduling.
Analyse the algorithms to find the shortest path,
maximum flow of minimum cost, maximum
 B.M.S. COLLEGE OF ENGINEERING, BENGALURU
Autonomous Institute, Affiliated to VTU

DEPARTMENT OF MATHEMATICS AND HUMANITIES

matching and minimum path cover.

Use graphs as representation tools in a network
analysis.
Model real world problems such as Job
sequencing, timetabling, sport scheduling,
Chinese postman problem, travelling salesman
problem, minimum weight spanning tree and
problems on stable matching’s using graphs.
Use of matlab to find the shortest path, minimum
weighted spanning tree, maximum flow.

Name of the Programme LINEAR ALGEBRA – INSTITUTIONAL

ELECTIVE
(16MA8IELIA)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO1
Course Outcomes (COs) Apply the concepts of matrix theory to vector
spaces.
Construct the matrix associated with a linear
transformation and analyze the rank and nullity.
Compute the eigenvalues and eigenvectors.
Relate the knowledge of inner product spaces to
orthogonalization process and least squares
solutions.
Construct the Singular value decomposition of a
given matrix.

Name of the Programme OPERATIONS RESEARCH – INSTITUTIONAL

ELECTIVE
(16MD8IEOPR)

Programme Specific Outcomes (PSOs) --

Programme Outcomes (POs) PO1 to PO4
Course Outcomes (COs) Formulate a real-world problem as a
mathematical programming model.
Formulate and solve transportation models by
applying cost cutting strategies.
Formulate and solve assignment models and
travelling salesmen problems.
Construct a project network and apply program
evaluation review technique and critical path
management.
Employ Game theory for strategic decision
making.

Name of the Programme FUNCTIONAL ENGLISH

(18HS1NCENG/ 18HS2NCENG)
Programme Specific Outcomes (PSOs) --
Programme Outcomes (POs) PO9 & PO10