Niryo has also chosen to equip its Ned2 robot arm with a vision set, for colour object detection and recognition.

This Niryo Ned 2 compatible conveyor belt is a robot arm accessory you can use to design your next industrial production line or improve your robotics programming education.

This Niryo accessory enables the Ned2 6-axis robotic arm to lift and move objects with flat, smooth, non-porous surfaces that are too thin to be picked up by any other means

This adaptive gripper for the Niryo Ned2 6-axis robot arm adapts perfectly to handling of more complex objects: round items, pens, eggs, etc.

With this large gripper for the Niryo Ned2 6-axis robot arm, you can grab larger objects than with the custom gripper supplied.

You’ll find additional uses for your Niryo Ned2 6-axis robot arm thanks to this electromagnet, a tool designed to catch everything the other grippers won’t.

Ned2 is Niryo’s new 6-axis robot arm. It’s robust, can be customised and is suitable for many research, teaching and industrial development applications.

The Hunter SE robotics chassis, designed for speed and distance, is the ultimate exploration robot.

The development kit for AGVs and AMRs based on SWD Safety Wheel Drive technology provides a ready-to-use platform for designing, testing and validating autonomous mobile robots in research, academic or industrial environments.

The AgileX Bunker Mini 2.0 tracked mobile robot is a small UGV that performs well on all terrains.

The Omnivision extension for the e-puck 2 robot is a colour camera with panoramic vision that you can connect directly to the robot’s microcontroller or to its Pi-Puck extension.

The University of York robotics lab has designed a new extension for its e-puck 2 robot, for installing a Raspberry Pi Zero W (rPi) microcontroller. More efficient, and cheaper!

This programmable Crazyflie drone (ROS compatible) designed by Bitcraze has an exclusive embedded indoor positioning system, for an autonomous flight that’s as precise as when using a GPS!

Fly this swarm of 10 Crazyflie 2.1+ drones (ROS compatible) or teach them to fly autonomously with the Loco Positioning System!

Something’s happened to your battery charger or your Crazyflie 2.1+ drone LiPo battery? Don’t panic, these spare parts will come to your rescue!

Bitcraze has created a new kit for its tiny programmable Crazyflie 2.1+ drone(ROS compatible). This time it comes with a radio amplifier and ToF sensor!

The Crazyflie 2.1+ quadcopter nano kit, with its USB radio dongle, is a programmable and fully open-source long-range drone (ROS compatible).

This 100% ROS four-wheel drive mobile base is an outdoor pro. Use this durable Rover to carry heavy loads on any terrain.

This Dingo robotic platform was designed by Clearpath for indoor education and research applications. It comes in two versions: differential drive or omnidirectional drive.

The Scout Mini autonomous mobile base is fast, agile, compact and ROS-compatible. It opens the way for AgileX platforms, a new generation of high-performance UGVs. A robot that can be adapted to many missions as long as you roll up your hacker sleeves. This mobile robot is CE certified.

This new Robotis Engineer kit designed for higher education in robotics and programming comes equipped with Raspberry Pi V2 camera module and a Raspi Zero Board to develop your robotic vision skills.

This camera mount is designed to attach a Raspberry Pi camera to a TurtleBot3 robot or OpenManipulator TurtleBot3 controller.

The Robotis Engineer Kit 1 includes a set of robotics solutions for education, app development and competition. With this kit, you can create various articulated, smart robotics platforms.

The Robotis RH-P12-RN-UR Hand is an industrial gripper designed to adapt to the UR e-Series collaborative robot arms. It combines strength, a light weight, precision and adaptability for use in many robotic and industrial settings.