Explore our diverse range of robotic systems designed for various applications and industries.
PuppyPi is an AI-powered quadruped robot dog based on the Raspberry Pi 5. It is equipped with 8 high-performance coreless servos and features a link structure design in its legs, enabling flexible and dynamic movement. Running on both ROS1 and ROS2 operating systems, PuppyPi robot dog supports Python programming and integrates AI vision capabilities, such as target tracking and face detection, to support a variety of creative AI applications. With its multimodal AI model, camera, and AI voice interaction module, PuppyPi can understand its surroundings and perform tasks with agility, enabling advanced embodied AI applications.
MentorPi is a modular, ROS2‑compatible autonomous robot car powered by Raspberry Pi 5, available in Mecanum and Ackermann chassis configurations. It combines Lidar, a 3D depth camera, high‑speed closed‑loop encoder motors, and high‑torque servos to enable SLAM, path planning, and reliable autonomous navigation. Onboard vision uses YOLOv11 for real‑time road sign and traffic‑light detection, and a Multimodal Large AI Model provides advanced embodied‑AI capabilities.
ArmPi Pro uses OpenCV as the image processing library and can use the First Vision HD camera to carry out color recognition and coordinate positioning of marked items, thereby realizing artificial intelligence projects such as color block sorting, target tracking and visual line patrol. ArmPi Pro's built-in inverse kinematics enables precise and agile object tracking and gripping by decomposing the robot arm's servo motion control.
AiNex Standard is an AI humanoid robot built on ROS and powered by a Raspberry Pi, offering 24 degrees of freedom and self‑stabilizing inverse kinematics for agile walking, climbing, grasping, and complex maneuvers. Equipped with a 2‑DOF AI vision camera and articulated hands, AiNex performs tasks such as line following, target tracking, intelligent picking and sorting, ball shooting, stair climbing, and transportation. Its adjustable height, turning radius, and speed, combined with advanced kinematics and onboard vision, make it ideal for research, education, and real‑world robotic applications.