What Makes Booster Robotics Special
Purpose-built for education with advanced capabilities that grow with student learning.
Autonomous Navigation
Advanced SLAM technology enables independent movement and obstacle avoidance in dynamic classroom environments.
AI Learning Platform
Built-in machine learning frameworks allow students to train models and see real-time results on the robot.
Environmental Exploration
Sensors and cameras enable mapping and analysis of surroundings, teaching spatial reasoning and data collection.
Safe & Accessible
Designed with safety features and intuitive programming interfaces suitable for all skill levels.
Technical Specifications
Professional-grade hardware in an educational package
Real-World Learning Applications
From basic programming to advanced AI research, Booster Robotics scales with curriculum needs.
Students learn Python, ROS, and control systems through hands-on robot programming exercises.
Train object detection models and see immediate results as the robot identifies classroom objects.
Implement path planning algorithms and watch the robot navigate obstacle courses autonomously.
Deploy neural networks for behavior learning, enabling the robot to improve through experience.
Combine LiDAR, camera, and IMU data to build accurate environmental models and maps.
Multi-robot coordination and collaborative tasks teach teamwork and distributed systems.
Built for Performance and Learning
Every component is selected to provide reliable operation while teaching core robotics concepts.
Curriculum Integration
Comprehensive lesson plans and projects aligned with STEM education standards.
Progressive Complexity
Start with basic movements and advance to complex AI behaviors at your own pace.
Remote Learning Support
Web-based simulation environment allows students to program and test at home.
Robust & Reliable
Industrial-grade components ensure years of classroom use with minimal maintenance.
