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Course Detail

Course Name Embedded Systems for Robotics
Course Code 25MT612
Program M. Tech. in Mechatronics
Semester 2
Credits 3
Campus Amritapuri

Syllabus

Unit I

Robots and Embedded Systems-Robots and Controllers: Mobile Robots-Embedded Controllers-Interfaces-Operating System, Robot operating system (ROS), Sensors, Actuators in Robots – Control – On-Off Control, PID Control, Velocity Control and Position Control, Recent Trends in Robotics

Unit II

Mobile Robot Design: Driving Robots- Single Wheel Drive- Differential Drive- Tracked Robots- Synchro-Drive- Ackermann Steering- Drive- Kinematics, Omni-Directional Robots, Balancing Robots, Walking Robots, Walking Robots, Walking Robots, Walking Robots

Unit III

Mobile Robots, Concepts of Localization, and path planning, Maze Exploration, Map Generation

Objectives and Outcomes

Learning Objectives

LO1: To understand the role of embedded controllers, actuators, and sensors in robotic
systems, including modern control techniques and ROS.

LO2: To learn the mechanical and kinematic design principles of mobile robots such as
differential drive, omni-drive, balancing and walking robots.

LO3: To explore embedded control strategies like PID, velocity, and position control for real-
time robotic applications.

LO4: To understand key concepts of localization, path planning, and map generation in
autonomous mobile robots.

 

Course Outcomes

CO1: Explain embedded system architectures and their integration with robotic systems using
sensors, actuators, and control strategies.

CO2: Design mobile robot drive mechanisms and analyze drive kinematics.
CO3: Implement control techniques (PID, velocity, position) in embedded platforms for
robotic motion control.

CO4: Apply embedded techniques for localization, maze navigation, and map generation in
mobile robotics.

 

CO-PO Mapping

CO/PO

 PO 1

 PO 2

 PO 3

 PO 4

 PO 5

 CO 1

 3

 –

 3

 2

 –

 CO 2

 2

 –

 2

 3

 –

 CO 3

 2

 –

 3

 2

 2

 CO 4

 2

 2

 3

 3

 2

Text Books / References

Textbook(s)

Thomas Bräunl, “Embedded Robotics: Mobile Robot Design and Applications with Embedded Systems”, Third Edition, Springer-Verlag Berlin Heidelberg, 2008.

Reference(s)

  1. R.K.Mittal and I.J.Nagrath, ?Robotics and Control?, Tata McGraw-Hill Publishing Company Ltd., New

Delhi, 2003.

  1. John J. Craig, Introduction to Robotics: Mechanics and Control, Fourth Edition, Pearson, 2018.
  2. Anis Koubaa, ?Robot Operating System (ROS) The Complete Reference?, First Volume, Springer, 2016.
  3. K.S. Fu, R.C. Gonzalez and C.S.G. Lee, ?Robotics: Control, Sensing, Vision, and Intelligence?, McGraw-Hill, New York, 1987.

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