Course Overview

This course simplifies robotics by breaking down its core components: mechanics, electronics, sensors, actuators, and programming. Through hands-on projects like building robotic arms, line-following robots, and obstacle-avoidance robots, you’ll apply concepts practically. Learn to control motors and sensors using GPIO pins, master communication protocols like I2C, SPI, and UART, and leverage open-source tools like OpenCV for advanced vision tasks. Explore real-world applications in manufacturing, healthcare, logistics, and more, gaining the skills to design innovative robotic systems and excel in this dynamic field.

Course Curriculum:

A foundational overview of robotic systems, covering mechanics, electronics, sensors, actuators, and programming.

Understanding General Purpose Input/Output pins for controlling motors, sensors, and other robotic peripherals effectively.

Designing and calculating the mechanics and dynamics of robotic end effectors for various tasks.

Developing applications to program robots for specific tasks and real-world automation needs.

Implementing and integrating vision systems to enable robots to perceive and interact with their environment.

Exploring advanced tools like force and torque sensors, spectroscopic vision, and conveyor tracking for precision tasks.

Examining the design, functionality, and applications of SCARA (Selective Compliance Assembly Robot Arm) robots in industries.

Understanding the mechanics and control of articulated robots with multiple rotary joints for versatile tasks.

Job Opportunities

  • EV Manufacturing.
  • Automobile Industry.
  • Process Automation Industry.
  • Warehouse Automation.
  • Medical – Robotic surgeries.
  • Electronic Industries.
  • IT – Industries taking automation projects.

Course Eligibility

  • Electrical Science Stream: EC, EE, Instrumentation, Telecommunications,  Mechatronics.
  • Mechanical
  • Polytechnic: NTTF,  Diploma
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  • Industrial Control Systems: Master PLCs, SCADA, HMIs, field controls, and communication protocols for robust automation of industrial processes.
  • Intelligent Embedded Systems: Design and program smart devices using microcontrollers, sensors, and communication protocols to power the sensing and control nodes of your integrated system.
  • Robotics Fundamentals: Build a solid foundation in robotic control, actuation, and integration into automated workflows.
  • IoT Connectivity: Enable data flow, remote monitoring, and predictive analytics across your industrial system using essential IoT technologies and connectivity solutions.

Real-World Projects:

  • Smart Factory Optimization: Design an integrated solution to improve production efficiency, reduce downtime, and track KPIs in real-time.
  • Connected Product Development: Create a smart product with embedded sensor networks, data processing, and cloud connectivity for remote management.
  • Collaborative Robotics Integration: Implement a safety-focused, automated workflow involving both robots and human operators.

Job Opportunities

  • EV Manufacturing.
  • Automobile Industry.
  • Process Automation Industry.
  • Warehouse Automation.
  • Medical – Robotic surgeries.
  • Electronic Industries.
  • IT – Industries taking automation projects.

Course Eligibility

  • Electrical Science Stream: EC, EE, Instrumentation, Telecommunications,  Mechatronics.
  • Mechanical
  • Polytechnic: NTTF,  Diploma

Join the Innovation Revolution

If you are interested in joining us, please check out our course details and apply online. We look forward to hearing from you!