Aim

This 4-week course introduces participants to the fundamentals of robotics with an emphasis on AI and its integration into robotic systems. The course covers key robotics concepts, from basic kinematics and control systems to advanced AI techniques used in autonomous robots. Participants will learn how to build and program simple robots, integrate sensors, and use AI algorithms for real-time decision making in robotic applications.

Program Objectives

• Understand the fundamental principles of robotics including motion, control, and navigation.
• Learn how AI algorithms like computer vision, machine learning, and reinforcement learning are applied in robotics.
• Gain hands-on experience in programming robotic systems and integrating them with AI for autonomous decision-making.
• Build a foundational knowledge of sensors and actuators used in robotic systems.
• Develop skills in working with robotic simulation software and programming environments like ROS (Robot Operating System).

Participant Eligibility

• Students and professionals with a background in computer science, robotics, engineering, or AI.
• Anyone interested in learning the principles of robotics and applying AI to robotic systems.
• No prior experience in robotics or AI is required, though familiarity with programming concepts is helpful.

Program Outcomes

• Solid understanding of the fundamental principles of robotics, including kinematics, motion control, and sensors.
• Hands-on experience programming robotic systems with AI algorithms such as computer vision and reinforcement learning.
• Practical knowledge of designing and building robots for real-time decision-making and autonomous tasks.
• Ability to create intelligent robots capable of performing basic tasks autonomously.

Program Deliverables

• Access to e-LMS: Full access to course materials, resources, and videos.
• Hands-on Projects: Build and program robotic systems using real-world sensors and actuators.
• Final Project: Present a final project demonstrating autonomous behavior and AI integration in robotics.
• Certification: Certification awarded upon completion of the course and successful final project submission.
• e-Certification and e-Marksheet: Digital credentials awarded upon course completion.

Future Career Prospects

• Robotics Engineer
• AI Engineer for Robotics
• Embedded Systems Engineer
• Automation Engineer
• Machine Learning Engineer for Robotics

Job Opportunities

• Robotics Companies: Designing, building, and deploying robots for various applications (e.g., healthcare, automotive, logistics).
• Tech Startups: Developing AI-driven robotic solutions for industries like smart manufacturing, agriculture, and consumer electronics.
• Automation Firms: Working on automation solutions for factories, warehouses, and assembly lines.
• Research Institutions: Developing new technologies in robotics and AI for future applications in autonomous systems.