Educational AI Robot Lineup
From autonomous driving and quadruped robotics to robot hands, physical computing, AI integration, and industrial arms — 7 educational AI robots and Physical AI kits, each shipped with a ready-to-run curriculum.
AI Mech
Learn smart mobility through autonomous driving

A mecanum-wheel mobile robot that drives in every direction, follows lines, avoids obstacles, and runs AI Vision missions — teaching the principles of autonomous driving and smart mobility.
- Category
- Autonomous mobile robot
- Ages
- Upper elementary to high school
- Hours
- 4~16차시
Learning content
- Mecanum wheels and omni-directional motion
- Basic driving control
- Line following and obstacle avoidance
- AI Vision-based driving missions
- Real-world links: self-driving cars, smart cities, logistics robots
Expected outcomes
- Understand the principles of robot motion control
- Grasp core concepts of autonomous driving
- Hands-on, problem-solving project experience
MechDog
Explore the future with a robot dog

Learn the anatomy and motion of a quadruped robot, run sensor-driven exploration and rescue missions, and see how Physical AI shapes future robotics.
- Category
- Quadruped Physical AI robot
- Ages
- Upper elementary to high school
- Hours
- 4~16차시
Learning content
- Anatomy of a quadruped robot
- Basic walking and motion control
- Sensor-reactive missions
- Exploration, rescue, and environment survey projects
- Physical AI concepts and use cases
Expected outcomes
- See how AI and robot hardware fit together
- Connect sensor data to behavior control
- Spark interest in future robotics
AI Hand
Learn human-robot interaction through a robot hand

Control servo motors, build finger movement, and design gestures — learning joint mechanics and precision control that extend into assistive tech and humanoids.
- Category
- Precision robot hand
- Ages
- Upper elementary to middle school
- Hours
- 3~6차시
Learning content
- Hand anatomy and robot joint principles
- Building finger motions
- Servo motor control fundamentals
- Gesture design and interaction
- Case studies in assistive tech and humanoids
Expected outcomes
- Understand precision control and robot structure
- Broaden interest in human-robot interaction
- Sharpen engineering thinking
AI Block
Build smart systems with sensors and code

Use light, sound, distance, and motion sensors to master the input–process–output loop, then build smart devices that solve everyday problems.
- Category
- Physical computing modules
- Ages
- Upper elementary to high school
- Hours
- 4~8차시
Learning content
- Sensors and actuators fundamentals
- Input–process–output structure
- Working with light, sound, distance, and motion data
- Designing alerts, reactive, and smart systems
- Real-life problem-solving projects
Expected outcomes
- Grasp physical computing basics
- Build problem-definition and solution-design skills
- Enjoy hands-on creative making
Nexbit
Your first AI and robot coding project

An intro program covering sequence, loops, and conditionals — using sensors and modules to build simple robot behaviors and reactive devices.
- Category
- Beginner AI & coding kit
- Ages
- Middle elementary to middle school
- Hours
- 3~6차시
Learning content
- Basic coding structure
- Sequence, loops, and conditionals
- Understanding sensors and modules
- Driving outputs from sensor input
- Mini problem-solving projects
Expected outcomes
- Foundational coding skills for AI & robotics
- Understand sensor-to-output wiring
- Beginner-friendly hands-on experience
AiNova
Solve everyday problems with AI

Learn AI's input–recognize–decide–output loop, then plan and present team AI projects on daily life, environment, safety, and industry problems.
- Category
- AI integrated project kit
- Ages
- Upper elementary to high school
- Hours
- 4~12차시
Learning content
- AI fundamentals
- Data input and AI recognition
- Decision and action design from recognition
- Building AI auto-response systems
- Team AI project planning and presentation
Expected outcomes
- Understand the AI input–analyze–decide–output flow
- Experience real-world AI use
- Get hands-on interdisciplinary project experience
xArm AI
Learn smart factories and automation with a robot arm

Understand a robot arm's structure and reach, then build pick-and-place, repeat cycles, and automation sequences that model smart factory manufacturing.
- Category
- Industrial robot arm
- Ages
- Middle to high school
- Hours
- 4~12차시
Learning content
- Robot arm structure and reach
- Sequential control and repeat cycles
- Object handling and automation tasks
- Smart factory and industrial robotics
- Automation and manufacturing innovation cases
Expected outcomes
- Foundational understanding of automated processes
- Career exploration in industrial robotics
- Broaden interest in future manufacturing
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