The ROS 2 EDU Kit is a fully open-source kit that can be programmed under Linux, Windows or Mac, making it particularly user-friendly. It's built on the AgileX autonomous mobile robot platform, so has an efficient and precise self-location system based on a LIDAR and numerous other sensors. The ROS 2 EDU Kit includes: AgileX mobile base AgileX ROS2 software LIDAR RGB camera IMU Encoders Ultrasonic sensors The AgileX ROS2 Kit is a great platform for learning about ROS 2 and mobile robot navigation. It is also a great tool for developing autonomous robots for research and industrial applications.

The Ray series is designed for advanced research and development of indoor service and transport robots. It is small enough to fit into complex environments and can be easily equipped with lidar, camera, GPS, 4G or 5G, a robotic arm and other modules.

Neos is a universal mobile robotic chassis capable of carrying up to 50 kg of payload. With Ackermann steering, Neos achieves speeds of up to 20 km/h and is suitable for a wide range of indoor and outdoor applications including gravel and asphalt roads. It overcomes slopes of up to 10° and bumps.

Navis is an autonomous navigation system developed by AgileX Robotics. It is compatible with all of AgileX's robotic platforms and is designed for semi-enclosed and fully enclosed scenarios. Navis can be applied to indoor and outdoor fusion scenarios, and can be used in a variety of industries, including security, industrial automation, logistics, and transport.

The HexMan Mark2 is not just a robot; it's a cutting-edge marvel designed to revolutionize your daily life. With its sleek hexagonal design and advanced AI capabilities, the Mark2 is more than just a helper—it's a true companion that seamlessly integrates into your home or workplace.

The Hexman Mark 1 Mecanum Pro is an omnidirectional mobile robot platform that is designed for a variety of applications, including research, education, and industrial use. It is equipped with four Mecanum wheels, which allow it to move in any direction without having to turn. The Mecanum wheels are also very maneuverable, so the robot can easily navigate around obstacles.

The HEXMAN Mark1 is a Mecanum wheel robot chassis designed for education, scientific research, and hobbyist projects. It offers omnidirectional movement, allowing the robot to move in any direction and rotate on the spot, making it highly maneuverable and versatile. Key Features: Mecanum wheels: Enable omnidirectional movement for precise positioning and navigation. Durable aluminum frame: Provides a sturdy and lightweight platform for various payloads. Open-source design: Allows for customization and integration with different control systems and sensors. Multiple versions available: Choose between the standard MARK1 and the MARK1-DIFF version with differential drive for improved speed and control. Suitable for various applications: Robotics education, research projects, line following, obstacle avoidance, and more

The Hexman Mark 1 DIFF Pro is a customized mobile robot platform designed for research, education, and development purposes. It is particularly well-suited for robot teaching and initial development verification. The Mark 1 DIFF Pro is built on a modular design, which allows you to customize the wheelbase and axle spacing to meet your specific needs. You can also choose from a variety of motion modes, including omnidirectional, differential drive, and Ackermann steering. This versatility makes the Mark 1 DIFF Pro a valuable tool for a wide range of applications.

The Hexman Mark 1 DIFF is a customized mobile robot platform designed for research, education, and development purposes. It is particularly well-suited for robot teaching and initial development verification. The Mark 1 DIFF is built on a modular design, which allows you to customize the wheelbase and axle spacing to meet your specific needs. You can also choose from a variety of motion modes, including omnidirectional, differential drive, and Ackermann steering. This versatility makes the Mark 1 DIFF a valuable tool for a wide range of applications.

The Unitree H1 remote controller is a handheld device designed to operate the Unitree H1 quadruped robot. It features intuitive controls for commanding the robot's movements and actions wirelessly. The controller typically includes joysticks or buttons for directional movement, as well as additional controls for adjusting parameters such as speed and behavior modes. With its ergonomic design and user-friendly interface, the Unitree H1 remote controller enables precise and effortless control of the robot in various environments and applications.

The Unitree H1 Quick Charger is a specialized charging device tailored for the Unitree H1 robot. It boasts rapid charging capabilities, allowing for swift and efficient recharging of the robot's batteries. With its compact design and user-friendly interface, the H1 Quick Charger streamlines the charging process, ensuring minimal downtime for the H1 robot between tasks. Ideal for deployment in various settings, from research laboratories to industrial environments, the H1 Quick Charger maximizes the operational efficiency of the Unitree H1 robot.

The Unitree H1 leg is a cutting-edge robotic limb developed by Unitree Robotics. Designed with advanced materials and precision engineering, it offers exceptional agility and stability. Equipped with powerful actuators and sensors, the H1 leg enables dynamic movements and precise control, making it ideal for various applications in robotics research, exploration, and mobility assistance. Its modular design allows for easy integration into different robotic platforms, offering versatility and adaptability to diverse environments and tasks.