R.M.D.

ENGINEERING COLLEGE
(An Autonomous Institution)
R.S.M Nagar, Kavaraipettai, Gummidipoondi Taluk, Thiruvallur District, Tamil Nadu - 601206
Aff Affiliated to Anna University, Chennai / Approved by AICTE, New Delhi / Accredited by NAAC with B++ Grade
An ISO 9001:2015 Certified Institution / All the Eligible UG Programs are accredited by NBA, New Delhi

Ref.No.RMDEC/BOS/2020 – 21/01 Date: 23.05.2024

Time: 10:00 AM
FACULTY OF ELECTRONICS AND COMMUNICATION ENGINEERING
ACTION TAKEN REPORT OF 5TH BOARD OF STUDIES
MEETING HELD ON 22.05.2024 AT 02:00 PM

Category Name of the Members Member

Dr.K.Helenprabha
Professor & Head
Board of Studies Chairman
Department of Electronics and Communication
Engineering
Chairman
R.M.D.Engineering College,
Kavaraipettai-601206
Dr.R.Gunasundari
Professor
Department of Electronics and Communication
Expert Nominated from Anna Engineering
University Pondicherry Engineering College Member
Puducherry - 605014
Ph.9443956146
Email: gunasundari@pec.edu
Dr. S.S.Karthikeyan
Associate Professor,
Department of Electronics and Communication
Engineering
Member
NIT, Trichy - 620015
Subject Expert from Outside Ph. No.8903859762
Email: sskarthikeyan@nitt.edu
the Parent University
Dr. P.Sasikumar,
Associate Professor (Senior)
Department of Embedded Technology, School Member
of Electronics Engineering, VIT, Vellore
Ph. 9442027059
Email: professor.sasikumar@gmail.com
Mr.V.Sadagopal
Principal Engineer,
Microchip Technologies, Chennai Survey
No. 410/1BSemmencheri Village,
Thalambur Link Rd, Nookampalayam, Member
Chennai, 600119
Industry Representative Ph:9345948128
Email:sadagopal.venugopal@microchip.com
Mr.Ramesh Ramanathan
Principal Architect, CTO Office
Tata Elxsi, Chennai
Member
Ph:9444683147
Email:ramerama@tataelxsi.co.in
Postgraduate Meritorious Mr.Ravi Kiran Paladugu
Alumnus Amazon Web Services
 Enterprise Account Manager, Global
Manufacturing and Industrial vertical,
Hyderabad, India
Member
Ph: 9996886789
Email:rpaladugu2@gmail.com
Dr.T. Suresh
Professor & Head
Expert from Outside the Department of Electronics and Member
Communication Engineering
College
R.M.K. Engineering College,
Kavaraipettai-601206 Ph. 9003688243
Email: hod.ece@rmkec.ac.in

⮚ Board of Studies meeting of the ECE department, R.M.D. Engineering College commenced with the
Welcome Address by Dr.N.Anbuchezhian, Principal, R.M.D. Engineering College.

⮚ Board of Studies Chairman Dr.K.Helenprabha, Professor and Head, R.M.D. Engineering College
presented 5th to 8th Semesters B.E (E.C.E.) Syllabi for R2022 Curriculum to BoS Members.

⮚ The Internal members of the Board of studies were also present.

Agenda 1: Confirm and approve the minutes of the previous meeting on 28.04.2023.

Notes : The minutes of the previous meeting held on 28.04.2023 is placed for
Perusal and confirmation.
 BoS Members approved the minutes of the previous meeting held on 28.04.2023.

Action taken on the minutes Approval of BoS members is noted and recorded for implementation.

Agenda 2: To Peruse the action taken report (ATR) on the Minutes of the previous meeting held
on 28.04.2023.
Notes : The Action Taken report for the previous meeting held on 28.04.2023 placed,
incorporating the suggestions and observations of the members duly rectified and the
action initiated.
 BoS Members approved the action taken report (ATR) on the Minutes of the previous meeting
held on 28.04.2023.
Action taken on the minutes Approval of BoS members is noted and recorded for implementation.

Agenda 3 : To Ratify 3rd to 8th Semesters of the U.G. Programme of the Department – B.E. (E.C.E.) -
R2022 Curriculum
Notes : The ratification in Ratify 3rd to 8th Semesters of the U.G. Programme of the Department –
B.E. (E.C.E.) - R2022 Curriculum

 The Members approved the ratification and include the subject “ 22CS301 - Advanced Java
Programming” instead of “22CS305- Problem solving and Python Programming”
  The Members suggested to remove the subject “22EC412 -Testing of Sensors” from the 4th
Semester, since all the topics are covered in the subject “22EC907- Sensors and Actuators”. They also
recommended to include an Internship and a Mini project in the Curriculum.

SEMESTER III

S. COURSE CONTACT
No COURSE TITLE CATEGORY L T P C
CODE PERIODS
THEORY
Electromagnetic fields and
1. 22EC303 PCC 3 3 0 0 3
Transmission lines
2. 22GE201 Tamils and Technology HSMC 1 1 0 0 1
THEORY COURSES WITH LABORATORY COMPONENT
3. 22MA302 Statistics and Linear Algebra BSC 5 3 0 2 4
4. 22EC301 Signals and Systems PCC 5 3 0 2 4
5. 22EC302 Analog electronics PCC 5 3 0 2 4
6. 22CS301 Advanced Java Programming ESC 5 3 0 2 4

EMPLOYABILITY ENHANCEMENT COURSES

7. 22CS311 Aptitude and Coding Skills I EEC 2 0 0 2 1
8. 22EC311 Product Development Lab - 3 EEC 2 0 0 2 1
AUDIT COURSE
9. Value Education (Non Credit) AC 1 1 0 0 0
TOTAL 29 17 0 12 22
SEMESTER IV
S. COURSE CONTACT
COURSE TITLE CATEGORY L T P C
No CODE PERIODS
THEORY
Universal Human Values
1. 22GE301 HSMC 3 3 0 0 3
II: Understanding
THEORY COURSES WITH LABORATORY COMPONENT
Probability and Random
2. 22MA401 BSC 5 3 0 2 4
Processes
3. 22EC401 Control Engineering PCC 5 3 0 2 4
4. 22EC402 Linear Integrated Circuits PCC 5 3 0 2 4
Analog and Digital
5. 22EC403 PCC 5 3 0 2 4
Communication
EMPLOYABILITY ENHANCEMENT COURSES
6. 22CS411 Aptitude and Coding EEC 2 0 0 2 1
Skills II
7. 22EC411 Product Development EEC 2 0 0 2 1
Lab- 4
AUDIT COURSE
Yoga for Personality AC 1 1 0 0 0
8. 22AC401
Development
TOTAL 28 16 0 12 21
 SEMESTER V
S. COURSE CONTACT
COURSE TITLE CATEGORY L T P C
No CODE PERIODS
THEORY
1. Professional Elective I PEC 3 3 0 0 3
2. Professional Elective II PEC 3 3 0 0 3
THEORY COURSES WITH LABORATORY COMPONENT
Database Management
3. 22CS501 ESC 5 3 0 2 4
Systems
4. 22EC501 Digital VLSI Design PCC 5 3 0 2 4
Microcontroller and PCC 5 3 0 2 4
5. 22EC502
Interfacing
EMPLOYABILITY ENHANCEMENT COURSES
Advanced Aptitude and
6. 22CS511 EEC 2 0 0 2 1
Coding Skills I
7. 22EC511 Internship EEC 2 0 0 2 1
AUDIT COURSE
8. 22AC501 Indian Constitution MC 1 1 0 0 0
(NonCredit)
TOTAL 26 16 0 10 20

SEMESTER VI
S. COURSE CONTACT
COURSE TITLE CATEGORY L T P C
No CODE PERIODS
THEORY
1. Management Elective HSMC 3 3 0 0 3
2. Professional Elective III PEC 3 3 0 0 3
3. Professional Elective IV PEC 3 3 0 0 3
4. Open Elective I OEC 3 3 0 0 3
THEORY COURSES WITH LABORATORY COMPONENT
5. 22EC601 Digital Signal processing PCC 5 3 0 2 4
Embedded Systems & IoT PCC 5 3 0 2 4
6. 22EC602
Design
EMPLOYABILITY ENHANCEMENT COURSES
7. 22CS611 Advanced Aptitude and EEC 2 0 0 2 1
Coding Skills II
8. 22EC611 EEC 2 0 0 2 1
Mini Project
TOTAL 26 18 0 8 22

Action taken on the minutes Approval of BoS members is noted and recorded for implementation.
 Agenda 4: To Ratify Syllabi of all the Honors Specialization to include “Capstone
Project” in R2021 & R2022 Curricula.
Notes : Ratification in all the Honors Specialization to include “Capstone Project” in
R2021 & R2022 Curricula.
 The Members approved the ratification to include the "Capstone Project" in all Honors
Specializations for the R2021 and R2022 curriculum.
 “Capstone Project” in R2021 & R2022 Curriculum.

S.NO High Speed

IoT VLSI
Communication
1. Industrial and Medical Semiconductor devices Advanced Wireless
IoT and Fabrication Processes Communication
2. Programming and Web Advanced Wireless
RFIC Design
Technologies for IoT Networks
3. Deep Learning and Its VLSI Algorithms and Software defined
Application Architecture Networks
4. Satellite Communication
Reconfigurable
Design of Smart Cities &
Architectures
Navigation Systems
5.
Capstone Project Capstone Project Capstone Project

Action taken on the minutes Approval of BoS members is noted and recorded for implementation.

Agenda 5: To consider and recommend the Syllabi from 5th to 8th Semesters of the
U.G. Programme of the Department – B.E. (E.C.E.) - R2022 Curriculum
Notes: Recommendation of the Syllabi from 5th to 8th Semesters of the U.G.
Programme of the Department – B.E. (E.C.E.) - R2022 Curriculum
 The members recommended to include the topic “Quantum Cryptography” in
“22EC912 -Quantum Computing”
COURSE
CODE COURSE TITLE L T P C
22EC912 QUANTUM COMPUTING 3 0 0 3
COURSE OBJECTIVES:
  To know the background of classical computing and quantum computing.
 To gain knowledge about the basic hardware and mathematical models of quantum
computation.

RMDEC- Fifth BOS Meeting MoM-22.05.2024

  To learn the fundamental concepts behind quantum computation.
 To study the details of quantum mechanics and the relation to Computer Science.
 To learn the basics of quantum information and the theory behind it.
UNIT I FUNDAMENTAL CONCEPTS 9
Global Perspectives – Quantum Bits – Quantum Computation – Quantum Algorithms –
Experimental Quantum Information Processing – Quantum Information.
QUANTUM MECHANICS AND OVERVIEW OF
UNIT II COMPUTATIONAL MODELS 9
Quantum Mechanics: Linear Algebra – Postulates of Quantum Mechanics – Application:
Superdense Coding – Density Operator – The Shmidt Decomposition and Purifications –
EPR and the Bell Inequality – Computational Models: Turing Machines – Circuits –
Analysis of Computational Problems.

UNIT III QUANTUM COMPUTATION 9

Quantum Circuits: Quantum Algorithms – Universal Quantum Gates – Quantum
Circuit Model of Computation – Simulation – Quantum Fourier Transform and
Applications – Quantum Search Algorithms – Quantum Computers

UNIT IV QUANTUM INFORMATION THEORY 9

Data Compression- Shannons noise less channel coding theorem- Schumacher’s Quantum
noise less channel coding theorem - Classical Information Over Noisy Quantum Channels.
UNIT V QUANTUM CRYPTOGRAPHY 9
Classical cryptography basic concepts- Private key cryptography-Shor’s factoring algorithm-
Quantum Key distribution-BB84-Ekart 91

TOTAL: 45 PERIODS
COURSE OUTCOMES:

On successful completion of this course, the student will be able to

CO1: Understand the basics of quantum computing
CO2: Understand the background of Quantum Mechanics.
CO3: Analyse the computation models.
CO4: Model the circuits using quantum computation
CO5: Understand the quantum operations such as noise and error–correction.
CO6: Appreciate the need of quantum computing

TEXT BOOKS:

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 1.
2. Michael A. Nielsen, Issac L. Chuang, “Quantum Computation and Quantum
Information”, Tenth Edition, Cambridge University Press, 2010.
3. Thomas G. Wong, “Introduction to Classical and Quantum Computing” Rooted
Grove, 2022
REFERENCES:
1. Scott Aaronson, “Quantum Computing Since Democritus”, Cambridge University
Press, 2013.
2. N. David Mermin, “Quantum Computer Science: An Introduction”, Cambridge
University Press, 2007.
NPTEL LINK:
https://archive.nptel.ac.in/courses/106/106/106106232/

 In the subject “22EC914 - Low power VLSI Design”, the members suggested to
specify the gate analysis explicitly.

COURSE
CODE COURSE TITLE L T P C
22EC914 LOW POWER VLSI DESIGN 3 0 0 3
COURSE OBJECTIVES:
● ● To identify sources of power in an IC.
● To identify the power reduction techniques based on technology independent
and technology dependent methods
● To identify suitable techniques to reduce the power dissipation
● To estimate power dissipation of various MOS logic circuits
● To develop algorithms for low power dissipation
UNIT I POWER DISSIPATION IN CMOS 9
Hierarchy of Limits of Power – Sources of Power Consumption – Physics of Power
Dissipation in CMOS FET Devices – Basic Principle of Low Power Design
UNIT II POWER OPTIMIZATION 9
Logic Level Power Optimization – Circuit Level Low Power Design – Gate Level Low
Power Design –Architecture Level Low Power Design – VLSI Subsystem Design of Adders,
Multipliers, PLL, Low Power Design
UNIT III DESIGN OF LOW POWER CMOS CIRCUITS 9
Computer Arithmetic Techniques for Low Power System – Reducing Power Consumption in
Combinational Logic, Sequential Logic, Memories – Low Power Clock – Advanced
Techniques – Special Techniques, Adiabatic Techniques – Physical Design, Floor Planning,
Placement and Routing.

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 UNIT IV POWER ESTIMATION 9
Power Estimation Techniques, Circuit Level, Gate Level for NAND and NOR, Architecture Level,
Behavioral Level, – Logic Power Estimation – Simulation Power Analysis –Probabilistic Power
Analysis
SYNTHESIS AND SOFTWARE DESIGN FOR LOW
UNIT V POWER CMOS CIRCUITS 9
Synthesis for Low Power – Behavioral Level Transform –Algorithms for Low Power –
Software Design for Low Power.
TOTAL: 45 PERIODS
COURSE OUTCOMES:
At the end of this course, the students will be able to:
CO1: To know the sources of power consumption in CMOS circuits
CO2: To design and analyze various MOS logic circuits
CO3: To apply low power techniques for low power dissipation CO4: To estimate the
power dissipation of ICs
CO5: Able to develop algorithms to reduce power dissipation by software CO6: To learn
the design concepts of low power circuits
TEXT BOOKS:
1. Kaushik Roy and S.C.Prasad, Low power CMOS VLSI circuit design, John Wiley &
Sons, 2013.
2. Dimitrios Soudris, Christians Pignet, Costas Goutis, Designing CMOS Circuits for
Low Power, Springer,2011
REFERENCES:
1. A.P.Chandrasekaran and R.W.Brodersen, Low power digital CMOS design, Springer
US, 2012.
2. Gary Yeap, Practical low power digital VLSI design, Springer US, 2012.
3. Abdelatif Belaouar, Mohamed.I.Elmasry, Low power digital VLSI design: Circuits
and Systems, Springer Verlag, 2012.
4. James B.Kulo, Shih-Chia Lin, Low voltage SOI CMOS VLSI devices and Circuits,
John Wiley & sons,2011.
5. Steven M.Rubin, Computer Aids for VLSI Design, 3rd edition, R.L. Ranch Press,
2012.
NPTEL LINK:
https://archive.nptel.ac.in/courses/106/105/106105034/#

 The members recommended to include 5G protocols in the subject

“22EC915 - 4G/5G Communication Networks”

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 COURSE
CODE COURSE TITLE L T P C

22EC915 4G/5G COMMUNICATION NETWORKS 3 0 0 3

COURSE OBJECTIVES:
  To learn the evolution of cellular networks.
 To know about technology and evolution of LTE networks.
 To study the 5G architecture and its protocols.
 To study spectrum sharing and spectrum trading.
 To learn the security features in 4G and 5G networks.

UNIT I INTRODUCTION 9
Network Evolution - 2G, 3G, 4G, evolution of radio access networks, need for 5G, 4G versus
5G, Next Generation core (NG-Core). Virtualized evolved packet core (vEPC)

UNIT II 4G NETWORK ARCHITECTURE 9

Network architecture changes from 3G TO 5G - 3GPP Packet Data Networks - Network
Architecture - Packet Data Protocol (PDP) Context - Configuring PDP Addresses on Mobile
Stations - Accessing IP Networks through PS Domain – LTE network Architecture - Roaming
Architecture- Protocol Architecture

UNIT III 5G NETWORK ARCHITECTURE AND PROTOCOLS 9

5G architecture and core, network slicing, multi access edge computing (MEC) visualization of
5G components, end-to-end system architecture, service continuity, relation to EPC, and edge
computing. 5G protocols: 5G NAS,NGAP, GTP-U, IPSec and GRE.

UNIT IV DYNAMIC SPECTRUM MANAGEMENT AND MM-WAVES 9

Mobility management, Command and control, spectrum sharing and spectrum trading, cognitive
radio based on 5G, millimeter waves.

UNIT V SECURITY AND APPLICATIONS OF 4G AND 5G 9

Issues and Challenges in Security Provisioning for 4G and 5G, Network Security Attacks,
possible solutions for jamming, tampering, black hole attack, flooding attack in heterogeneous
4G and 5G networks. 4K/8K streaming, AR/VR, Real time interactive gaming, IoT and smart
cities, Satellite Internet.

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 TOTAL: 45 PERIODS

COURSE OUTCOMES:

On successful completion of this course, the student will be able to

CO1: Understand the evolution of cellular networks
CO2: Learn the concepts of 4G networks.
CO3: Comprehend the 5G architecture and protocols
CO4: Understand the dynamic spectrum management.
CO5: Learn the security aspects in 4G and 5G networks
CO6: Learn the applications in 4G and 5G Networks.
TEXT BOOKS:

1. Ayman El-Nashar, Mohamed El-saidny, Mahmoud Sherif, Design,

Deployment and Performance of 4G-LTE Networks: A Practical Approach, John Wiley
& Sons, 2014
2. An Introduction to 5G Wireless Networks : Technology, Concepts and Use cases, Saro
Velrajan, First Edition, 2020.

REFERENCES:

1. 5G Simplified: ABCs of Advanced Mobile Communications Jyrki.

T.J.Penttinen,Copyrighted Material.
2. 5G system Design: An end to end Perspective, Wan Lee Anthony, Springer
Publications,2019.
3. Jyh-Cheng Chen and Tao Zhang, IP-Based Next-Generation Wireless Networks Systems,
Architectures, and Protocols, First Edition, John Wiley & Sons, Inc. Publication, 2010.
4. Harri Holma, Antti Toskala, Takehiro Nakamura, 5G Technology :3GPP New Radio, John
Wiley, & Sons, 2019
5. Harri Holma, Antti Toskala, WCDMA for UMTS: HSPA Evolution and LTE, Fifth
Edition John Wiley & Sons, Inc. Publication, 2010.

NPTEL LINK:
https://onlinecourses.nptel.ac.in/noc22_ee56/preview

 The members suggested to remove Case study from Unit- I and include it in Unit –

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 IV. They also recommended to add WSN standards in “22EC917 - Wireless
Sensor Networks”

COURSE
CODE COURSE TITLE L T P C

22EC917 WIRELESS SENSOR NETWORKS 3 0 0 3

COURSE OBJECTIVES:
  To enable the student to understand the role of sensors and the networking of sensed
data for different applications.
 To expose the students to the sensor node essentials and the architectural details, the
medium access and routing issues and the energy constrained operational scenario.
 To enrich the student to understand the challenges in synchronization and localization
of sensor networks.
 To explain topology management for effective and sustained communication
 To understand the data management and security aspects for different applications in
wireless sensor networks

UNIT I OVERVIEW OF WIRELESS SENSOR NETWORKS 9

Challenges for Wireless Sensor Networks- Characteristics requirements-required
mechanisms, WSN standards, Difference between mobile ad-hoc and sensor networks,
Applications of sensor networks, Enabling Technologies for Wireless Sensor Networks.

UNIT II ARCHITECTURES 9
Single-Node Architecture - Hardware Components, Energy Consumption of Sensor Nodes,
Operating Systems and Execution Environments, Network Architecture - Sensor Network
Scenarios, Optimization Goals and Figures of Merit, Gateway Concepts. Physical Layer and
Transceiver Design Considerations

UNIT III MAC AND ROUTING 9

MAC Protocols for Wireless Sensor Networks, Zigbee, Low Duty Cycle Protocols and Wakeup
Concepts - S-MAC, Mediation device Protocol, Wakeup Radio Concepts, Address and Name
Management, Assignment of MAC Addresses, Routing Protocols- Energy-Efficient Routing,
Geographic Routing
UNIT IV INFRASTRUCTURE ESTABLISHMENT 9

RMDEC- Fifth BOS Meeting MoM-22.05.2024

Topology Control, Clustering, Time Synchronization, Localization and Positioning, Sensor
Tasking and Control, Case study

UNIT V DATA MANAGEMENT AND SECURITY 9

Data management in WSN, Storage and indexing in sensor networks, Query processing in
sensor, Data aggregation, Directed diffusion, Tiny aggregation, greedy aggregation, Security
Protocols, security in WSN
TOTAL: 45 PERIODS

COURSE OUTCOMES:

On successful completion of this course, the student will be able to

CO1: Understand the fundamentals of wireless sensor networks and its application.
CO2: Explain the architectures of sensor networks and its parameters.
CO3: Discuss the various protocols and routing algorithm at different layer.
CO4 : Understand the issues pertaining to sensor networks and the challenges involved in
managing a sensor network.
CO5: Design energy efficient sensor nodes and protocols.
CO6: Illustrate the storage, query processing, data management and different aggregation
methods for wireless sensor networks.

TEXT BOOKS:

1. Holger Karl & Andreas Willig, Protocols and Architectures for Wireless Sensor
Networks, JohnWiley,2005
2. Feng Zhao & Leonidas J. Guibas, Wireless Sensor Networks- An Information
Processing Approach, Elsevier, 2007.

REFERENCES:

1. Kazem Sohraby, Daniel Minoli, & Taieb Znati, Wireless Sensor Networks -Technology
Protocols and Applications, John Wiley, 2007.

2. Anna Hac, Wireless Sensor Network Designs, John Wiley, 2003.

3. Jun Zheng, Abbas Jamalipour, Wireless Sensor Networks: A Networking Perspective,
John Wiley, 2009.
4. Jochen Schiller, Mobile Communications, Pearson Education, 2nd Edition, 2003.
5. William Stallings, Wireless Communications and Networks , Pearson Education – 2004

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 NPTEL LINK:
https://nptel.ac.in/courses/106105160

Action taken on the minutes Approval of BoS members is noted and recorded for implementation.

Agenda 6: To Ratify the inclusion of additional subjects in Open Electives - R2021

Curriculum
Notes: Ratification for the inclusion of additional subjects in Open Electives - R2021
Curriculum
 The Members approved the ratification for the inclusion of additional subjects in
the Open Electives for the R2021 Curriculum
Course Code Course Title L T P C
21OE001 PCB Design 3 0 0 3
21OE002 Embedded Systems 3 0 0 3
21OE003 Principles Of Analog And Digital Communication 3 0 0 3
21OE004 Sensors and Instrumentation 3 0 0 3
21OE005 Automotive Electronics 3 0 0 3
21OE006 Robotic Systems 3 0 0 3
21OE007 Consumer Electronics 3 0 0 3
21OE008 Healthcare Electronics 3 0 0 3
21OE009 Semiconductor Physics 3 0 0 3
21OE010 Biomedical Instrumentation 3 0 0 3
21OE011 MATLAB Programming 3 0 0 3
21OE012 Industrial IoT Applications 3 0 0 3

Action taken on the minutes Approval of BoS members is noted and recorded for implementation.

Agenda 7: To approve the list of Colleges for External Examiners - Question Paper
Setting and Central Valuation for the Academic Year 2024-25

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 Notes : Approval for the list of Colleges for External Examiners - Question Paper
Setting and Central Valuation for the Academic Year 2024-25
 The members approved the list of colleges for external examiners for question
paper setting and central valuation for the academic year 2024-25
Action taken on the minutes Approval of BoS members is noted and recorded for implementation.

The Chairman of the Board of studies thanked all the members for their valuable suggestions
and cooperation.

After incorporating all the above suggestions, the modified curriculum and syllabi are
attached herewith for the kind perusal of the members of Board of Studies.

Dr.K.Helenprabha
Professor & Head
Board of Studies - Chairman

Dr.K.Helenprabha, Professor & Head Dr.R.Gunasundari

Board of Studies- Chairman Expert Nominated from Anna University

RMDEC- Fifth BOS Meeting MoM-22.05.2024

 <Signature > <Signature>

Dr. S.S.Karthikeyan Dr. P.Sasikumar

Subject Expert from Outside the Parent Subject Expert from Outside the Parent
University
Mr.V.Sadagopal University
Mr.Ramesh Ramanathan
Industry Representative Industry Representative
Mr.Ravi Kiran Paladugu Dr.T.Suresh
<Signature > <Signature
Expert from Outside >
the College
Postgraduate Meritorious Alumnus

<Signature > <Signature >

<Signature > <Signature >

RMDEC- Fifth BOS Meeting MoM-22.05.2024