Robotics Engineering
Robotic Engineering focuses on designing, building, and programming robots for automation, AI, and industrial applications, integrating mechanics, electronics, ...
Robotic Engineering focuses on designing, building, and programming robots for automation, AI, and industrial applications, integrating mechanics, electronics, ...
This 3-month professional robotics engineering course provides hands-on training in building, programming, and controlling robots. Students will learn fundamental robotics concepts, work with microcontrollers like Arduino, ESP32, and Micro:bit, and develop skills in circuit design, motor control, and sensor integration. Through virtual simulations and real-world projects, participants will explore autonomous navigation, wireless communication, and advanced robotics features, preparing them for careers in robotics, automation, and IoT. No prior programming experience is required!
Course introduction and safety protocols
Basic electronics and circuits
Components overview: resistors, LEDs, switches
Hands-on: Building simple circuits
Introduction to robot types and applications
Basic robot anatomy and components
Motors and sensors overview
Hands-on: Component identification and testing
VEXcode platform introduction
Basic programming concepts
Simple movement commands
Virtual robot navigation
Introduction to Arduino kit
Setting up the development environment
Basic LED projects
Digital input/output concepts
Sensors and actuators
Building simple sensor circuits
Reading sensor data
Hands-on: LED control with sensors
TinkerCAD introduction
Circuit simulation basics
Creating and testing virtual circuits
Basic Arduino programming in TinkerCAD
Interest in robotics, automation, and technology
Willingness to learn basic programming (no prior experience required)
Access to a laptop or computer for coding and simulations
Familiarity with basic electronics concepts is beneficial but not required
Understand the fundamental concepts of robotics, including robot anatomy, sensors, and actuators
Gain hands-on experience in building simple circuits and integrating components like resistors, LEDs, and switches
Develop proficiency in programming microcontrollers such as Arduino, ESP32, and Micro:bit for robot control
Learn to simulate and test robotic systems using virtual platforms like TinkerCAD, Wokwi, and VEXcode
Master motor control techniques, including working with DC motors, servo motors, and motor drivers
Implement basic and advanced robot movement patterns, including obstacle avoidance and line following
Explore wireless communication in robotics using Bluetooth, WiFi, and remote control implementations
Apply data analysis and debugging techniques to optimize robotic performance and troubleshoot issues
Design and develop robotics projects, from initial planning and prototyping to final implementation
Demonstrate competency in real-world robotics applications through project-based learning and hands-on experimentation
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Students
1
language
English
Duration
00h 00mLevel
intermediate
Expiry period
Lifetime
Certificate
Yes
TTA Admin
English
Certificate Course
1 Students
00h 00m
11 Courses
2 Reviews