Industrial Robotic Series – Intermediate
The “Industrial Robotic Series – Intermediate Level” delves deeper into the realm of industrial robotics, enhancing students’ proficiency in assembling and programming complex robotic systems. Building upon the basics, students will learn to differentiate between various robotic sensors and actuators, exploring their applications and functionalities. By combining Arduino programming skills with hands-on assembly using the Robowang Series kit, students will create advanced robotic projects that respond to their environment. They will troubleshoot and debug errors, honing their problem-solving abilities, and critically analyze challenges encountered during the assembly and coding processes. The integration of object-oriented programming principles will elevate the efficiency of robotic systems, setting the stage for more sophisticated explorations.

LEARNING OBJECTIVE
- Identify the components and functions of the Robowang Series robotic kit.
- Describe the basic principles of robotics and its applications in real-world scenarios.
- Explain the concepts of Arduino programming and the Arduino IDE environment.
- Summarize the key steps involved in assembling a basic robot using the Robowang Series kit.
- Differentiate between pre-programmed and programmable controllers and their significance in robotics.
- Interpret code written in Arduino IDE using movable blocks and comprehend its functionality.
- Assemble various robotic projects using the Robowang Series kit, following given guidelines.
- Program the robotic controller to perform specific tasks, utilizing Arduino IDE and movable blocks.
- Analyze the challenges and limitations faced during the assembly and coding of different robotic projects.
- Evaluate the effectiveness of object-oriented programming principles in enhancing the efficiency of robotic systems.
- Compare and contrast different robotic sensors and actuators in terms of their applications and functionalities.
- Analyze the challenges and limitations faced during the assembly and coding of different robotic projects.
- Evaluate the effectiveness of object-oriented programming principles in enhancing the efficiency of robotic systems.
- Compare and contrast different robotic sensors and actuators in terms of their applications and functionalities.
- Troubleshoot and debug basic errors in the code and robot assembly.
SESSION PLANNING
Session-wise Activities
- Day 1 Advanced Arduino IDE Features
- Day 2 Programming Logic and Loops
- Day 3 Intermediate Robotic Project: Robo-Car
- Day 4 Sensors and Actuators
- Day 5 Intermediate Robotic Project: Obstacle Avoider
- Day 6 Working with Servo Motors
- Day 7 Intermediate Robotic Project: Robotic Arm
- Day 8 Wireless Communication with Robots
- Day 9 Intermediate Robotic Project: Remote Control Car
- Day 10 Troubleshooting Intermediate Robotics
- Day 11 Intermediate Robotic Project: Line Maze Solver
- Day 12 Introduction to Object-Oriented Programming
- Day 13 Advanced Robotic Project: Maze Solver
- Day 14 Advanced Robotic Project: Robotic Sumo
- Day 15 Advanced Robotic Project: Pick and Place
- Day 16 Review and Final Project Planning
Material Required
- Robotmea IDS Kit
- Student manual
- Hands-out (if required)
- Audio-Visual Aid
- Tables
- Chairs
- Presentation/PPT
- Competition preparations (as per need)
Empowering Minds in the Digital Era
Address
Office 339, Office Tower, Al Ghurair Center, Deira Dubai
Contact Number
04-339-3803
info@metaverseage.ae