Advanced Robotics Training
Robotics Fundamentals
Build and program robots with our modular educational robot arm platform. Master kinematics, controls, sensors, and programming through hands-on projects with real hardware.
What You Will Learn
- Robotics fundamentals: kinematics, dynamics, and control theory
- Robot arm mechanics: joints, links, degrees of freedom, and coordinate systems
- Forward and inverse kinematics for position control
- Sensor integration: encoders, limit switches, force sensors, and vision
- Motion planning and trajectory generation
- Programming robots using Python and ROS (Robot Operating System)
- Practical projects: pick-and-place, drawing, object manipulation
- Safety considerations and real-world robotics applications
Who This Is For
- Engineering students specializing in robotics or mechatronics
- Makers and hobbyists building robot projects
- Software engineers entering robotics and automation
- Professionals transitioning to robotics careers
- Educators looking to teach robotics with real hardware
- Anyone curious about how robots work and want hands-on experience
Course Syllabus
Comprehensive robotics education from theory to practice with our modular robot platform.
Module 1: Introduction to Robotics
History, types of robots, applications, and overview of robot arm anatomy and components
Module 2: Robot Kinematics
Coordinate frames, forward kinematics, Denavit-Hartenberg convention, and inverse kinematics
Module 3: Sensors & Actuators
Motors, encoders, servos, sensors, and understanding feedback loops
Module 4: Robot Programming Basics
Python for robotics, basic movement commands, and controlling the robot arm
Module 5: Motion Planning
Trajectory generation, path planning, obstacle avoidance, and smooth motion control
Module 6: Advanced Topics
Computer vision integration, machine learning for robotics, and ROS fundamentals
Module 7: Capstone Projects
Design and implement complete robotic systems: sorting, assembly, or creative applications