Robotics Engineer Course: Level-2
The Robotics Engineer Course: Level-2 is a comprehensive program designed for learners who want to deepen their expertise in intelligent and autonomous robotic systems. The course covers advanced robotics concepts such as robot kinematics and dynamics, control systems, embedded programming, sensors and vision systems, and AI-enabled decision making. Through hands-on projects, simulations, and real-world case studies, learners gain practical experience in designing, integrating, and optimizing complex robotic solutions. This course prepares participants for professional roles in robotics, automation, and Industry 4.0 applications, and serves as a strong pathway to R&D and high-end engineering careers.
- 72 Hours (2 hours/day x 6 days/week x 6 weeks) OR at your own pace
- Hindi, English
- Learn & Get Certified
- Basic & Intermediate
- Hands-On Training
Online Course Fees
Offline Course Fees
About this course
The Robotics Engineer Level-2 Course is a 72-hour introductory training program.
It is designed to introduce learners to the core principles, components, and practical applications of robotics.
Through a blend of theory and hands-on activities, learners gain foundational knowledge of electronic components, circuits, sensors, motors, logic gates, and robot mechanisms, while building and troubleshooting multiple robot models on hardware and digital platforms.
The course further develops skills in robot assembly, testing, maintenance, documentation, and Arduino-based programming, enabling learners to construct functional robots such as:
– pick and place robot
– maze solving robot
By the end of the program, participants are equipped to:
– assist in robotics labs,
– support technical operations and
– work as robotics assistant technicians
This course provides essential knowledge and practical training to build industry-relevant skills.
- Online Course Fees: ₹3500 ₹2500 (incl. GST) (Excluding tools & equipment cost)
- Offline Course Fees: ₹15000 ₹12000 (incl. GST) (Excluding tools & equipment cost)
- Certification: TCoE
- Duration: 72 Hours (2 hours/day x 6 days/week x 6 weeks) OR at your own pace
What you'll learn
After this course you will learn:
- Advanced Robot Kinematics & Dynamics – Master forward/inverse kinematics, motion planning, multi-DOF control, and dynamic modelling for complex robotic systems.
- Robotic Operating System (ROS/ROS2) – Develop, integrate, and manage advanced robotic applications using ROS frameworks, nodes, topics, services, and real-time communication.
- AI-Driven Robotics – Implement machine learning and computer vision algorithms for autonomous navigation, object detection, and intelligent decision-making.
- Embedded Systems & Real-Time Control – Work with microcontrollers, real-time OS, motor drivers, sensors, and high-precision feedback control loops.
- Autonomous Systems & Path Planning – Learn SLAM, LiDAR integration, GPS-based navigation, and multi-robot coordination techniques.
- Industrial Robotics & Automation – Program industrial robotic arms (like ABB, FANUC, KUKA) and integrate PLCs, actuators, and automation workflows.
- Advanced Mechatronics Integration – Build robust robotic prototypes using mechanical design, power electronics, actuator selection, and system-level testing.
- Simulation & Digital Twins – Use Gazebo, MATLAB, or other simulation environments to design, test, and optimize robots before physical implementation.
Course Content
Why take this course?
This advanced course is designed for learners who want to master the design, programming, and integration of intelligent robotic systems. It focuses on advanced control systems, robot kinematics and dynamics, machine vision, AI-based decision making, and real-time system integration. Through industry-oriented projects and hands-on simulations, you gain the expertise needed to develop high-performance robots used in industrial automation, autonomous systems, healthcare, and smart manufacturing. With robotics at the core of Industry 4.0, this course prepares you for high-value roles and leadership opportunities in cutting-edge robotic and automation technologies.
How to use online TCoE platform?
Tools and Equipment required
National Skill Development Mission
Module-1: Introduction to Electronics
- This module provides the foundational knowledge of electronics essential for robotics.
- Learners will explore basic concepts such as voltage, current, resistance, and power, along with practical understanding of electronic components like resistors, capacitors, diodes, and transistors.
- The topic also covers circuit design, sensors, actuators, and power management, enabling students to build and troubleshoot simple electronic circuits that form the backbone of robotic systems.
Module-2: Introduction of Equipment and Tools Used
This module introduces learners to the legal and regulatory requirements for operating drones safely and responsibly. It covers national and international drone laws, licensing requirements, airspace restrictions, privacy considerations, and safety standards. Students will also learn about compliance procedures and documentation necessary for lawful drone operations. By the end of this module, learners will understand the regulatory framework governing drones, ensuring safe, legal, and responsible flying practices.
Module-3: Introduction to Sensors
This module familiarizes learners with the essential components of a drone and their functions. It covers the frame, motors, propellers, flight controllers, batteries, sensors, and communication systems. Students will also learn how each component contributes to flight, stability, and control. By the end of this module, learners will have a clear understanding of drone hardware, preparing them for assembly, calibration, and maintenance tasks in later modules.
Module-4: Motors and Controllers
This module introduces the principles of drone flight and the forces that govern it. Learners will explore key concepts such as lift, thrust, drag, and weight, as well as stability, control, and maneuvering. The module also covers flight modes, navigation basics, and how sensors like gyroscopes and accelerometers help maintain balance and orientation. By the end of this module, students will understand how drones fly and respond to controls, laying the foundation for practical flying and troubleshooting.
Module-5: Assembling a Robot
This module teaches learners how to operate drones safely using simulation software. Students will practice take-off, landing, hovering, and basic maneuvers in a virtual environment, reducing risks associated with real-world flights. The module also introduces different flight modes, mission planning, and emergency handling. By the end of this module, learners will gain confidence and essential piloting skills, preparing them for actual drone operation.
Module-6: Programming a Robot
Module-7: Testing and Fault Detection
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Autonomous Robot Navigation
Explore how robots think and move on their own! This topic dives into the fascinating world of autonomous navigation, where you’ll learn how robots use sensors, algorithms, and mapping techniques to understand their environment, avoid obstacles, and reach destinations independently. It’s the perfect blend of artificial intelligence, control systems, and real-world problem-solving — bringing robots to life with smart decision-making.
Job Opportunities
Here are some interesting job opportunities after completing the Robotics course:
Robotics Engineer – Design, build, and program intelligent robots for industrial and commercial applications.
Automation Engineer – Develop automated systems that enhance productivity in manufacturing and smart industries.
AI & Machine Learning Specialist – Integrate artificial intelligence into robotic systems for adaptive decision-making.
Robotics Technician – Assemble, test, and maintain robotic components and control systems.
Autonomous Vehicle Developer – Work on self-driving cars and drones that navigate and operate without human control.
Industrial Robotics Programmer – Create and optimize robotic programs for tasks like welding, packaging, and assembly lines.
Medical Robotics Assistant/Engineer – Contribute to the development of surgical robots and healthcare automation tools.
- Research & Development Scientist – Innovate new robotic technologies in academic or industrial research labs.
Frequently asked questions
What is this course about?
This course introduces you to the fundamentals of robotics — how robots are designed, built, and programmed to perform tasks automatically.
Who can join this course?
Anyone interested in technology, engineering, or automation can join. No prior experience in robotics is required.
What will I learn in this course?
You’ll learn about robot components, sensors, actuators, control systems, programming, and real-world applications of robots.
Is this course suitable for beginners?
Yes! The course starts with the basics and gradually moves to advanced concepts with step-by-step guidance.
Will there be practical or hands-on activities?
Yes, you’ll work on practical exercises and small projects to build and control simple robots.
What tools or software will I use?
You’ll use basic microcontrollers like Arduino or Raspberry Pi, along with simple programming tools for robot control.
