The design and construction of robots and autonomous systems.
Introduction to Robotics: Fundamental concepts of robotics and its history.
Robotics Kinematics: Study of motion, position, and velocity of robots.
Sensors and Actuators: Various types of sensors and actuators used in robots.
Robotics Dynamics: Study of forces, torques, and motions for robots.
Control Systems: Different types of control systems used in robotics.
Robotics Programming: Basics of programming languages used in robotics like C, C++, Python.
Vision Systems: Hardware and software systems used for vision-based robots.
Robotics Simulation: Simulation tools used for testing and training robotics systems.
Artificial Intelligence and Robotics: How AI interacts with robotics, including machine learning and deep learning.
Mechanical Design for Robotics: Fundamentals of mechanical design for robots.
Robotics Architecture and Integration: Designing and integrating robotic systems into various applications.
Robotics Process Automation (RPA): Automating processes using software robots and automation tools.
Robotics in Healthcare: Applications of robotics in healthcare including medical devices and surgical procedures.
Drones and Unmanned Aerial Vehicles (UAVs): Introduction to drones, their components, and applications.
Robotics Ethics and Intellectual Property: Ethical issues surrounding the use of robots and intellectual property rights.
Robotics Applications: Various applications of robotics in industries like automotive, manufacturing, and construction.
Robotics in Space: Applications of robotics in space exploration and technology.
Localization, Mapping, and Navigation: Techniques used for robot localization, mapping, and navigation.
Robotics Safety: Ensuring safe operation of robotic systems.