SeniorCHAMPS

(Grade 7 - 12)

Innovator | 210 Hours | 9 Kits

Welcome to the exciting world of Robotics!

A comprehensive program specially crafted for children of age 11-16 years old.
Get ready to embark on a thrilling journey that will develop modern-day skills and lay
the foundation for Robotics. RoboCHAMPS offers an exhilarating learning experience in
the dynamic fields of Robotics and Artificial Intelligence (AI). Our comprehensive
course provides a platform for exploration, innovation, and hands-on learning.
Throughout this program, students will delve into a wide range of captivating topics,
including Robotics Foundation, AI & ML for robots, Functional Robotics, Interactive
Mechatronics, Internet of Things (IoT), Sensory Systems, Home Automation, Robot
Kinematics, Open Source Hardware, Robotic Manipulator, Biped & Humanoids,
Multi-Legged Robots, and All-Terrain Robots.

With a focus on practical application and real-world challenges, our curriculum

empowers students to develop a strong foundation in robotics, integrate AI and ML
into robotic systems, design functional robots with advanced capabilities, and create
interactive mechatronic systems. Students will also explore the potential of IoT in
robotics, develop expertise in sensory systems, and learn to automate homes using
cutting-edge technologies.

The course culminates with captivating Capstone Projects, where students apply their
knowledge and technical expertise to create projects like All-Terrain Whegs, Wheeled
Droids, and Single Board Computers. These projects foster teamwork,
problem-solving, and innovation, allowing students to showcase their mastery in
Advanced Robotics and AI concepts.

RoboCHAMPS embarks on an exciting educational journey where imagination meets

technology. Equip with the skills and be ready to shape the future of Robotics and AI.
 Teaching Methodology
Children are naturally inclined towards playful and social activities, and
the most effective way to teach them complex technological concepts is
to gamify the learning experience. Months of research by our child
psychologists resulted in the most learning-outcome oriented technique
for teaching new technologies to children - PITLES - the spices of learning.

This unique and well-researched approach ensures that children with

even minor levels of technology inclination can be delivered the
maximum amount of learning outcomes. To teach any new
technological concepts, we start by getting the child to play with an
application/ project on the technology, then we fuel their curiosity about
the new technological concept, we encourage the child to make minor
modifications to the tech, then we get the child to deep dive into various
aspects of the technology, then we let the child explore creating different
applications of the concept, and towards the end, we make the child solve
open-ended real-world problems with technology.

Our curriculum is built on this philosophy and teaches children emerging

technological concepts via dozens of hands-on activities that are
delivered live, while all the tools the child needs to experiment are shipped
in advance. The experience is tailor-made for each child, to ensure that

“we are firing the right neurons with the right

intensity at the right time.”
 The RoboCHAMPS Advantage

Completely Hands on 100% Refund

Children are guided

Cancel anytime,
step-by-step into making
No questions asked
projects by themselves,
Get 100% refund on the
theereby pushing their motor skills
remaining classes on the same day
and enhancing technology aptitude

Personalised 1:1 Sessions Real World Inspired

One-on-one live learning The activities that constitute

experience that is tailored the program are inspired by
to your child’s skill-set real-life problem statements
and learning needs, that challenge and inspire the
delivered in 60 minutes at once! critical thinking abilities of the child.

Intuitive Mechatronics Best-in-class Teachers

It applies mechanical, Learn from the best

electronic and software technology minds across
engineering principles to premier universities
make learning Robotics and Al an globally, handpicked meticulously
intuitive experince for children. with a selection rate of less than 0.1%

Unique “Play to Impact” Certification from an

Pedagogy alumni of MIT, IIT & IIM

We use a way of integrating Highly coveted certification

children's play experiences with from the distinguished
curricular learning, giving alumni of MIT, IIT and IIM,
pupils the flexibility to find their own solu- delivered at completion of each
tions to both new & existing problems. module and each course.
 Course Modules
Robotics Foundation
15 Hours

RoboXceed
AI & ML for Robots
15 Hours
Functional Robotics
15 Hours
Interactive Mechatronics
15 Hours
Internet of Things
15 Hours

RoboElite
Sensory Systems
15 Hours
Home Automation
15 Hours
Robot Kinematics
15 Hours
Open Source hardware

RoboSupreme
15 Hours
Robotic Manipulator
15 Hours
Biped & Humanoids
15 Hours
Multi Legged Robots
15 Hours
All Terrain Robots
15 Hours
Capstone
Projects
15 Hours
 ROBOTICS EXPEDITION

Robotics Foundation
AI & ML for Robots

30 Hours
Duration
28 1
Activities Kit

Learning Outcome Skill Benefits

Exploration of Technological Concepts

AI & ML Concepts
Application of Knowledge through Hands-On Projects
Cognitive Abilities
Development of Technical Skills
Hands-on Skills Learning
Foster Innovation and Future-Ready Skills

Activity Project Outcome

01 Welcome to Robotics Understanding of Robotics, Sprite control,

coordinates, conditions

02 Ping-Pong Sprite control using robot, loops, directions

03 Tom & Jerry Understanding of block-based coding &

how to connect it with hardware,
Customizing sprites & backdrops

04 Tokyo Drift Assembling hardware, motor controls of the

robot, understanding how code & hardware
comes together,Motor threshold & Movement
robotic controls

05 Roll 'n' Race Understanding of tactile buttons, robotic

controls, triggering actions based on robotic
decisions
Activity Project Outcome

06 Think it, Lit it Switching the LED patterns via code on

robot, Understanding of Matrix, frames &
scrolling effects

The Discotheque
07 Learns to change Music value with touch
buttons

08 Music Player Applying the concepts of touch sensors,

tactile buttons, RGB led matrix to develop
an application based project.

09 Color Soccer Motor threshold & Movements

Catch 'Em All

10 Using Quarky as remote Accessory for
playing games

11 Quiz Up Contest Designing and button craft

12 Robocop Assembling And experiencing new sensory

Mirror Mirror on the Wall

13 Face detection & analysis, Recognizing
emotions

Fruit Ninja
14 Movement and Body detection on camera

Global Weather Station

15 Fetching locations and their Environment

Guess What
16 "Object detection, image analysis

Music on AR
17 Card detection & LED matrix understanding
Activity Project Outcome

Trace the path

18 Understanding of proxy sensors & how it works

Get the pizza!

19 Understanding of Artificial Intelligence,
Autonomous driving, card detection & recognition

Follow me
20 Driving control, Human detection & tracking
using AI

AI Assistance Bot
21 Speech recognition, understanding of matrix

My Robopet
22 Understanding of Controlled driving using
speech recognition

23 Intro to ML & Training Understanding of ML, steps involved in it,

training & testing of model

24 Let's calculate! Understanding of speech-based ML,

model-training using audio, understanding of
arithmetical operators

25 Let's calculate! - II Understanding of speech-based ML, training of

model using audio, controlling the bot via speech
commands

26 Rock, Paper, Scissors Understanding of image-based ML, identifying

images, 2 player (human-robo) game developing

27 Dr. Strange Understanding of gesture-based ML,

gesture-controlled robot

28 People & Expressions Understanding of image-based ML, face

recognition using ML
 EXPLORING MECHATRONICS

Functional Robotics
Interactive Mechatronics

30 Hours
Duration
23 1
Activities Kit

Learning Outcome Skill Benefits

Understanding Robotic Actions and Automation Data Analysis

Application of Robotics, ML and AI
Critical Thinking
Electronics Fundamentals and Circuit Design
Problem Solving
Sensor and Input Modules Integration

Activity Project Outcome

01 Sweeping Bot Remote-controlled robotic actions

02 Tilt & Move Understand the concept and functionality of

accelerometers in mobile devices

03 Check the Edge Design and build an automated edge

detector robot using an ultrasonic sensor.

04 Smart Dustbin-1 Design and build an aumated smart

dustbin

05 Smart Dustbin -2 Design and build an aumated smart

dustbin
Activity Project Outcome

Goods Delivery Bot (Part 1)

06 Understand the concept and functioning
of a horizontal pick & place mechanism in
robots.

Goods Delivery Bot (Part 2)

07 Develop programming logic to automate
the pick & place operations of the robot

Restaurant from Future (Part 1)

08 Apply the concepts of robotics, machine
learning (ML), and artificial intelligence (AI)
to real-world scenarios.

Restaurant from Future (Part 2)

09 Understand the various components and
mechanisms used in robotic systems for
restaurant operations

Restaurant from Future (Part 3)

10 Magnetic North Pole, Degrees, use of
magnetometer to detect various directions

Radar
11 Sweeping servo motor along with obstacle
detection by Ultrasonic sensor

12 Tick Tick Timer Controlled rotation of servo motor, angular

displacement, real-time-duration analysis

My First Circuit 1
13 Learn about Electronics: Electric Current,
Voltage, Resistor, Open circuit, Closed circuit,
Circuit simulation

My First Circuit 2
14 Understand the concept of breadboard & it's
internal circuitry, Circuit making on Bread-
board, Introduction to Push button/ tactile
button, Circuit making using Tactile button

Dimmer
15 Ohm's law, Relation between voltage, current
& resistance, Introduction to Potentiometer,
Circuit building using a potentiometer
Activity Project Outcome

Series 'n' Parallel

16 Series & Parallel Connection, Merits -
Demerits & Applications of Series & Parallel
Connection, Values of Resistors, Making
series resistor circuit, Making parallel
resistor circuitSeries & Parallel Connection,
Merits - Demerits & Applications of Series &
Parallel Connection, Values of Resistors,
Making series resistor circuit, Making
parallel resistor circuit

Cap-tron Charge
17 Capacitor: It's structure & Working, Appli-
cations of Capacitor, Building RC charging
& discharging circuit

18 Touch to Lit! Transistor & its terminals, operating a

transistor in a circuit, using transistor as a
switching element

19 Let's go Digital Signals, Analog Signal, Digital Signal, Logic

States, Digital Output driven circuit

20 Disco Lights Pulse Width Modulation, Controlling LEDs

using PWM output, Programmable Electronic
circuits

My Color Palette
21 Color Spectrum, RGB color coding, Analog
values, Range of potentiometer, Map & Cast
function

Electronics Gateway
22 Logic Gates: And, Or, Not, Practical Realization,
Truth table & Working

RoadFighter
Fighter
23 Road Joystick module & it's connections with a
microcontroller, Applications of Joystick
moduel, Dual axis motion (X-Y axis)
 IOT CYBERSPACE
Internet of Things
Sensory Systems
Home Automation

45 Hours
Duration
25 2
Activities Kit

Learning Outcome Skill Benefits

IoT Cloud Platform and Data Management Data Management

Sensor Integration and Smart Home Automation Electronics Assembly
Machine Learning and Notification Systems Machine Learning
Data Monitoring and Visualization
Data Analysis

Activity Project Outcome

Gateway to Internet of
01 Fundamentals of IOT, Creating and Testing the
Dashboard on IoT cloud platform by sending
Things
the test data.

Let's Build the IoT House

02 Assembling the sensors to IoT house Walls - Soil
Moisture Sensor, Light Sensor, Flame Sensor, Gas
- Part 1
sensor, Humidity and Temperature Sensor, IR
sensor, Smart Plug

Let's Build the IoT House

03 Assembling the IoT house Walls - RFID sensor,
Motion Sensor, Servo motor, DC Motor
- Part 2

Let's Build the IoT House

04 Assembling the IoT house Walls & Connecting the
Quarky Main Board & Quarky expansion Board
- Part 3

Open Sesame
05 IR sensor connections & working, Reading the
IR sensor output, Connecting servo motor with
quarky expansion board
Activity Project Outcome

Peek-a-Boo Pass
06 PIR sensor connections & working, Reading
the PIR sensor output, Making IoT door
operating system with PIR sensor

ML Gate
07 Setting up teachable ML model and use ML
to control door of IoT house using servo
motor & Adafruit

Gotta Passcode 1
08 Introduction to lists as a data structure,
Applications of PIR motion sensor, Applications
of servo motor, Using IFTTT & Adafruit to set up
a notification system

Gotta Passcode 2
09 Introduction to lists as a data structure,
Applications of PIR motion sensor, Applications
of servo motor, Using IFTTT & Adafruit to set up

Let's Control the Ambience Using slider & color picker blocks to control the
10 brightness & lightning of the house, Learn to
use multiple feeds on adafruit

IoT Light-Bright Log

11 "Introduction to IoT cloud - Thigspeak Platform,
Light dependent resistor (LDR), Reading the
analog value of the LDR(light intensity of the
surrounding), and sending to Cloud, Monitoring
and visualization.

Gas Gauge
12 Working of gas sensor, Connections of gas
sensor, Setting up IoT channel using thingspeak
and reading & writing data to cloud and using
IoT to create alarm.

PPM Analyzer
13 Interfacing gas sensor, Reading real-time PPM
data through a gas sensor, using adafruit to
develop air quality monitoring system

Smart Fan
14 DHT11 Sensor(Temperature & Humidity) -
connections and working, DC motor working
and connections.
Activity Project Outcome

IoT Weather Station

15 Analyzing multiple data streams on ThingSpeak,
Multiple channel creations, Real-time data
monitoring, Creating a live weather station

Plant Health Check

16 Reading analog sensors, Understanding soil
moisture sensor - working & connections,
logging data to thingspeak IoT platform"

Smart Irrigation 1
17 Analyzing multiple data streams on ThingSpeak,
Multiple channel creations, Real-time data
monitoring, Creating a live weather station

Smart Irrigation 2
18 Reading analog sensors, Understanding soil
moisture sensor - working & connections,
logging data to thingspeak IoT platform"

Drip Irrigation System

19 Introduction to drip irrigation system,
Components of drip irrigation system,
Advantages of Drip Irrigation. How to set-up
drip irrigation system for 2 plants

Smart Garden Monitoring

20 Multiple sensor interfacing, Multiple data feeds
monitoring & it's visualization, Understanding
real-world challenges & deriving it's solutions.

Home Automation 1
21 Connecting and reception of data from cloud,
Control of devices based on the data received
from cloud.

Home Automation 2
22 Monitoring the power consumed by various
appliances over cloud, Controlling the
operation of devices on pre -granted credits

Auto-Water Tank
23 Automated pump operation, conduction of
electricity, prototyping real world products

My IoT Robot
24 Working mechanism of Quarky robot with IoT,
Adafruit dashboard control

IoT Patient Monitoring System

25 Working mechanism of pick & place robots with
IoT, Adafruit dashboard control, Multi-featured
IoT dashboard development
APPLIED ROBOTICS & LOCOMOTION
Robot Kinematics, Open Source Hardware,
Robotic Manipulator, Biped & Humanoids,
Multi Legged Robots, All Terrain Robots

90 Hours
Duration
75 5
Activities Kit

Learning Outcome Skill Benefits

Robotics Assembly and Integration Engineering

Object Manipulation and Control Automation
Vision and Perception in Robotics Computer Vision
Kinematic Analysis and Optimization Complex Problem-solving

Activity Project Outcome

01 Introduction to Robotics Define robot links, linkages, and joints

Understand the x, y, and z axes and their

02 Coordinate Systems significance in robotic environments

03 Degrees of Freedom Explore different types of degrees of

freedom in robotic systems

Robot Workspace and Understand the concept of robot

04 Manipulability workspace and its significance

05 Forward Kinematics Understand the concept of forward

- Part 1 kinematics
Activity Project Outcome

Forward Kinematics
06 Explore the relationship between revolute
joints, links, and angles
- Part 2

Inverse Kinematics
07 Learn about inverse kinematics and its
importance in robotics
- Part 1

Inverse Kinematics
08 Understand the relationship between end
effector position and joint configuration
- Part 2

Robot Dynamics
09 Understand the forces, torques, and
motion involved in robot movements

Trajectory Planning and

10 Learn about trajectory planning and
control in robotics
Control

Learn to interface LEDs and resistors with the

11 Get Set Go with Arduino Uno
Arduino board

Dim to Bright
12 Learn how to read analog values from the
potentiometer using Arduino

Light Behind Light

13 Gain knowledge about Pulse Width Modulation
(PWM) and its applications in controlling
electronic circuits

Rotate it Right Left

14 Gain knowledge and understanding of
interfacing a driver IC with an Arduino Uno board

Go Fast, Go Slow
15 Develop programming skills to utilize PWM
commands in Arduino to control the speed
of the DC motor

Auto Cooling System

16 Learn how to read data from the DHT11
sensor using appropriate programming
techniques

Servo Swinger
17 Develop programming skills to control the
angle of rotation of a servo motor using
Arduino
Activity Project Outcome

Servo Robotic Crane

18 Learn how to connect and configure a
joystick with Arduino to obtain analog
input values

See the Distance

19 Learn the process of configuring and
programming the Arduino to receive and
process data from the ultrasonic sensor

Auto Room Light

20 Apply the appropriate wiring and connec-
tions to interface the LDR sensor with the
Arduino

Dark Bright
21 Apply the knowledge of interrupts to
program an LED using an ISR

Displays Using Arduino

22 Learn the process of establishing I2C
communication between the Arduino Uno
and the OLED display

23 Bluetooth & Arduino Learn to send and receive data wirelessly between
the Arduino and a Bluetooth-enabled device, such
as a smartphone or computer

24 Robotic Arm Assembly-I "Understand robotic arms and their functions.

Define Degrees of Freedom (DOFs) in robotics

25 Robotic Arm Assembly-II "Identify and describe key components.

Understand mechanical design principles

26 Robotic Arm Assembly-III Understand gripper mechanisms.

27 Degree of Freedom "Understand servo motors

Analyze servo motor control

28 Object Pickup and Perform manual object manipulation

Placement Arm

29 Autonomous Object
Manipulation
Perform autonomous object manipulation
Activity Project Outcome

Object Detection Waste

30 Enhance understanding of computer vision
and AI concepts
Segregation

Gesture Controlled
31 Understand the gesture recongnition for
robotic arm
Robotic Arm

Interactive Object
32 Learn about the object detection
Tracking Arm

Obstacle Avoidance to
33 Learn about how to protect the robotic arm
Protect arm/Avoid accident

Robotic Arm with Image

34 Understand the principle of image
recognition
Recognition

35 Object Sorting Develop algorithms to identify object

categories using AI or machine learning
techniques

Color Sorting
36 Understanding the colour soting

Let's Build Humanoid 1

37 Understand the mechanical assembly process
of a humanoid robot, specifically the feet and
legs

Let's Build Humanoid 2

38 Understand the mechanical assembly process
of a humanoid robot's body, specifically the
servos and body components

Let's Build Humanoid 3

39 Understand the process of assembling the
arms to the shoulders, ensuring proper
alignment and attachment

Humanoid Circuitry
40 Understand the process of connecting the
Quarky microcontroller and the Expansion
board to establish communication and
control between them

Flappy-Talkie 1
41 Simultaneously, activate the hand flapping
mechanism by controlling the servo
motors connected to the humanoid's
hands
Activity Project Outcome

Flappy-Talkie 2
42 Define any required variables, constants, or
libraries for speech synthesis and gesture
control

Biped 1
43 Set up the necessary hardware compo-
nents, such as servo motors for leg shaking
and tip toe feet swing

Biped 2
44 Demonstrate the ability to program the robot to
bend towards the left and right directions

Biped 3
45 Demonstrate the ability to program the robot
to perform toe touch movements in place,
forward, and backward directions

Biped 4
46 Understand the concept of crusaito movements
in a humanoid robot

47 Biped 5 Demonstrate the ability to program the robot to

perform moon walk movements forward and
backward

48 Biped 6 Understand the principles of forward and

backward walking in a humanoid robot

49 Robo Dancer Demonstrate the ability to program the robot to

perform coordinated hand and feet movements

50 Let's Build Quadrapad 1 Understand the fundamental components and

structure of a quadruped robot, including the
base frame, body, and leg assemblies

51 Let's Build Quadrapad 2 Understand the anatomy of a quadruped leg,

including the joints, segments, and connecting
mechanisms, and how they contribute to the
overall locomotion of the robot

52 Let's Build Quadrapad 3 Learn the principles of mechanical assembly

specific to the head assembly

53 Walkathon 1 Learn the principles of servo motor operation,

including the concepts of clockwise and
anticlockwise rotation
Activity Project Outcome

Street Dancer
54 Understand the concept of choreographing
movements for a dancing quadruped robot,
combining rhythm, coordination, and creativity
to create visually appealing dance routines

Disco Dancer
55 Practice timing and tempo control, understanding
how to align the robot's movements with the beat
or rhythm of the music

Object Avoider
56 Understand the concept of obstacle detection
and avoidance using an ultrasonic sensor in the
context of a quadruped robot

Object Follower
57 Understand the concept of object tracking and
following using an ultrasonic sensor in the context
of a quadruped robot

Gesture-Controlled
58 Understand the concept of gesture control and its
application in robotics, specifically in controlling
Quadrapad
the movements of a quadruped robot

59 Speech-Based Understand the concept of speech recognition

and its application in controlling robotics systems,
Quadrapad
specifically in controlling the movements of a
quadruped robot

60 ML based Quadrapad Understand the principles of machine learning and

its application in robotics, specifically in creating a
hand gesture recognition system for controlling a
quadruped robot

Understand the concept of IoT (Internet of Things)

61 IoT based Quadrapad
and its application in robotics for remote control

62 Joystick based Gain familiarity with the components and wiring

required to interface a joystick with a quadruped
Quadrapad
robot

63 Let's Build Mars Rover 1 Apply mechanical assembly techniques to

securely attach the motor brackets and wheel
holders to the robot's chassis

64 Let's Build Mars Rover 2 Demonstrate the ability to correctly attach and
secure the servo motors to the servo-top holder
using appropriate screws

65 Let's Build Mars Rover 3 Identify and assemble the motor brackets to
accommodate the gear motors of the two
middle wheels
Activity Project Outcome

Let's Build Mars Rover 4

66 Identify the components of the servo motor
assembly, including the servo motor holder and
base plate

Let's Build Mars Rover 5

67 Assemble the wheels onto the axles securely,
ensuring proper alignment and attachment

Mars Rover Circuitry 1

68 Identify the Quarky stand-offs and their
significance in securely mounting Quarky
onto the rover

Mars Rover Circuitry 2

69 Understand the concept of servo motor
calibration and the need for setting offset
values

Perseverance's Earth
70 Understand the principles of remote control and
its application in controlling a Mars rover
Controller Station

Roving the Mars

71 Understand the functionality and principles of the
ultrasonic sensor in the context of the Mars rover

72 Water on the Red Recognize the importance of detecting water on

Mars and the role of machine learning in this
Planet 1
process

73 Mission Mars Understand the concept of data logging and

its significance in scientific exploration and
research

Understand the importance of collecting soil

74 Martian Driller
samples for scientific exploration and research
purposes

75 An open challenge Apply their knowledge and skills in robotics,

engineering, and space exploration to tackle
real-world challenges and push the boundaries
of innovation
 CAPSTONE PROJECTS

All Terrain Whegs

Wheeled Droid
Single-Board Computers

15 Hours
Duration
09
Activities

RoboCHAMPS in Real Life

 Engagement Programs
“Those who fail to identify and encourage deserving talent are not
committing a mistake, but a heinous crime.”

As already established, RoboCHAMPS is tailor-made to every child’s needs as

not all children learn at the same pace. In order to encourage and reward
high-performing students that learn faster, a variety of engagement
programs are in place to provide right growth opportunities to children:

Monthly Contests
RoboCHAMPS continuously runs thematic
contests every month, to provide students
a chance to showcase their creativity,
and an opportunity to win exciting prizes.

Graduation Projects
Each course is followed by a Graduation
Project that encourages students to use
the concepts they learned in the course to
solve a real-world problem.

Annual Showcase
Top Graduation Projects are chosen for a
worldwide annual showcase hosted by
BrightCHAMPS, to tell the world about the
budding innovators.

Global House Program

A global cross-cultural student connect

program that encourages collaboration
among students from different countries,
cultures, traditions, etc., where they learn
about each other’s unique experiences.
 Innovator in a Nutshell

RoboXcel
RoboXceed RoboPrime
RoboElite RoboMaster
RoboSupreme
Sessions Sessions Sessions
STEM Foundation 105Pre-Robotics
Classes, 100% Flexible
Robotics Expedition
210 Classes, 100% Flexible
60 Classes, 100% Flexible
76 Activities 160 Activities
51 Activities Sessions
Sessions Sessions
120 Classes, 100% Flexible
5 Certifications
30 Classes, 100% Flexible 60 Classes, 100% Flexible
Emerging Innovator Leader,
2 Certification 3 Certifications Young4 Certifications
Mechatronics Master,
1 Certification
Emerging Innovator Leader, Emerging Innovator Leader,
2 Certifications Junior IoT Engineer, Industrial
Excelling STEM Prodigy
Young Mechatronics Master Young Mechatronics Master, Robotics & Robo Mobility Maestro,
Excelling STEM Prodigy Excelling STEM Prodigy Prime Robotics Wizard
Junior IoT Engineer Real World Robotics Genius
Emerging Innovator Leader
Prime Robotics Wizard
Goals
Goals Young Robotics Goals& STEM Master
Develop a comprehensive
Comprehensive
Gaining knowledge in Goals
Goals expertise in robotics, AI, IoT,
understanding of robotics, AI,
science and programming Goals
mechatronics, and various
ML. Design, build, program Apply AI, ML, IoT, and
concepts while solving sensoryFoundation of
systems in robots with
Empower
robot types includingto
students excel
quadru
AI-enabled robots. Prepare for programming, in robotics through mastery
problems with limited
real-world applications using emphasis on IoT integration.&
electronics peds, Mars rovers, humanoids,
resources mechanics
Develop concepts
advanced to
projects, in programming,
and robotic arms. Thisintegration
prepares
interactive
effectively solve real
including IoT-based home life of AI and machine
individuals learning
for diverse applica
mechatronics
problems
automation tionsto
andcreate robotsin the
innovations
Modules field of robotics
Jugaad
Modules Jack, Modules
Modules
Gadget Genius
Robotics Foundation, Modules Jugaad Jack, Gadget
Modules Robotics Foundation, AI & ML for
Fundamentals of AI & ML, Jugaad Jack, Genius, Mechanics
Robots, Functional Robotics,
Robotics Foundation, AI & ML for
AI & ML for Robots Gadget Genius, Maverick,
Interactive Electronics
Mechatronics, Internet
Improvement Areas Robots, Functional Robotics,
Mechanics Maverick,
Interactive Mechatronics, Elite, Robotics
of Things, Sensory Foundation,
Systems, Home
STEM Awareness, Electronics Automation, Robotof
Kinematics,
Improvement Internet of Things,Elite
Sensory Fundamentals AI & ML,
Motor Skills,Areas Open Source
AI & MLhardware,
for Robots Robotic
Systems, Home Automation
AI &Programming Skills
ML Concepts, Cognitive Manupulator, Biped & Humanoids,
Abilities, Hands-On Learning Skills, Improvement Areas Multi Legged Robots,
Critical Thinking, Electronics and Capstone
All Terrain Projects
Robots
25 Activities
Circuitry Skills, Applied AI & ML Critical Thinking,
Improvement
Electronics Areas
and Circuitry
Basics of Funcational
Improvement Areas &
Applied Robotics and
Skills,
Real worldLogical Thinking
problem solving, Applying AI, ML, and IoT in
Applied IoT,physical
Introduction to Micro Python
robotics.Robot kinematics and
computing,sensor interfacing, motion planning. Controlling
Technology aptitude robotic manipulators Working
with open-source hardware like
Arduino Uno, Complex problem
solving skills, Technology
correlation
Capstone Projects
All Terrain Whegs
Wheeled Droid
Single Board Computers


www.robochamps.club
www.brightchamps.com

support@robochamps.club

+91 70195 28484

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Paya Lebar Square Singapore (409051)