Course Overview – 12-in-1 WeeeBot RobotStorm
The WeeeBot RobotStorm Kit is a comprehensive robotics and AI training program designed to spark creativity and develop technical skills in young innovators. With 12 fully buildable and programmable robots, this course introduces students to core concepts in robotics, automation, artificial intelligence, and engineering design.
Throughout the course, learners will progressively explore:
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Motor and sensor control
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Remote interaction (IR, sound, light)
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Obstacle detection and line following
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Robotic arms and manipulators
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Precision motion with encoder motors
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Autonomous behaviors and balancing algorithms
From a walking robot to a self-balancing robot, each project is designed to simulate a real-world robotic application — empowering students to imagine, build, and code their own intelligent systems.
What Students Will Learn:
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Mechanical design and construction
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Sensor-based decision-making
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Motor control with encoders and servos
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Programming logic and algorithmic thinking
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Real-world applications of robotics
This course is ideal for:
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Middle and high school students
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STEM and robotics clubs
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Makerspaces and tech camps
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Schools using project-based learning
Let’s build the future, one robot at a time.
Curriculum
- 12 Sections
- 29 Lessons
- 12 Weeks
- 🔹 Section A: Walking Robot01. Walking Robot Goal: Learn how to control DC motors with encoders to achieve precise walking movement. Understand basic motion logic and programming fundamentals for walking robots.4
- 🔹 Section B: Rolling Tank02. Rolling Tank Goal: Build a tracked robot and control it using light and sound sensors. Explore multi-sensor fusion and environmental reaction strategies.2
- 🔹 Section C: Spider Robot03. Spider Robot Goal: Develop a six-legged walking robot and program it to react to IR remote commands. Learn about servo coordination and movement patterns.2
- 🔹 Section D: Detection Robot04. Detection Robot Goal: Use ultrasonic sensors to detect and avoid obstacles. Understand the principles of safe autonomous navigation.2
- 🔹 Section E: 3-Wheel Robot05. Three-Wheel Robot Goal: Implement line-following behavior and combine it with obstacle avoidance. Learn about decision-making using multiple sensors.2
- 🔹 Section F: Forklift Robot06. Forklift Robot Goal: Simulate real-world lifting mechanisms and control them with IR remotes and limit switches. Explore logic for vertical motion and object handling.2
- 🔹 Section G: Camera Dolly Robot07. Camera Dolly Robot Goal: Build a robot that moves a camera smoothly using encoder motors. Apply precision control for cinematic or monitoring purposes.2
- 🔹 Section H: 4DOF Robot Arm08. Robot Arm Goal: Construct and control a 3-axis robotic arm to perform basic pick-and-place tasks. Learn inverse kinematics and position control.2
- 🔹 Section I: Bartender Robot09. Bartender Robot Goal: Create a robot that simulates mixing and serving drinks using pumps and servos. Introduce students to timing, accuracy, and multitasking.2
- 🔹 Section J: Robot Arm Tank10. Robot Arm Tank Goal: Combine mobility and manipulation by mounting a robotic arm on a moving tank. Program coordinated actions for logistics or remote handling.3
- 🔹 Section K: Ball Launcher11. Ball Launcher Goal: Build a robot that launches balls on command. Learn about speed control, mechanics of tension/release, and feedback optimization.3
- 🔹 Section L: Self-balancing Robot12. Self-Balancing Robot Goal: Master the gyroscope sensor to build a robot that balances on two wheels. Understand real-time feedback loops and PID control.3
Instructor
