Training Course in Mechatronics and Robotics
Course Details
Hands-on Practical Training on Arduino Uno and Raspberry Pi:
- Learn the fundamentals of programming and interfacing sensors and actuators.
- Build real-world projects using Arduino Uno and Raspberry Pi to control mechatronic systems.
- Design and implement embedded systems for automation and robotics.
Mechatronics Practical Projects:
- Work on various mechatronics systems that integrate mechanical, electronic, and computer technologies.
- Explore motor control, sensors, microcontrollers, and the integration of mechanical components in automated systems.
- Develop innovative projects related to industrial automation and smart devices for homes and factories.
Robotics with Drone Training Programs:
- Gain practical training on integrating robotics with drone technology for diverse applications.
- Design and develop drone robotics systems used for agricultural automation, industrial inspection, and other industries.
- Learn to control robots using aerial platforms and explore the integration of advanced sensors for real-time navigation and data collection.
Vehicle Frame Designing and Drone Assembly:
- Delve into the design and assembly of drones, focusing on vehicle frame design, aerodynamics, and material selection.
- Learn about drone motors, propellers, and power systems essential for building stable and high-performance drones.
- Explore advanced drone functions like agricultural spraying, object transportation, and automated flight patterns.
Robotic Car and Essential Daily Use Projects:
- Build robotic car systems to understand autonomous vehicle navigation, motor control, and sensor-based obstacle avoidance.
- Design daily-use applications such as height measurement glasses for the blind, using ultrasonic sensors to detect obstacles and provide real-time feedback.
Robotic Arms and Sensor-Based Detection Systems:
- Develop and program robotic arms for precise object manipulation, exploring servo control, multi-axis movement, and automation.
- Work with water sensors, rain sensors and other detection technologies to create smart agricultural systems, environmental monitoring tools, and safety systems.
Capstone Project
- Students will design and build an automated drone system, integrating Arduino/Raspberry Pi, sensors, and control systems. The project will focus on a real-world application, such as agricultural spraying or environmental monitoring.