Mechatronics and Robotics

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.

Assessment and Certification

Assessments

Assessments will include quizzes, practical assignments, and lab evaluations. The final capstone project will test students’ ability to integrate all course concepts into a functional system.

Certification

Completion Certificates will be awarded to all, with Distinction for top performers and special recognition for innovation in the capstone project.

USMCIL

Let’s unite to unlock Uttarakhand’s potential through innovation, leaving a profound, positive impact.