The JSK Lab at the University of Tokyo has once again delivered a remarkable breakthrough. Their quadruped robot, KLEIYN, showcases the infinite possibilities for quadruped robots to move from two-dimensional planes into three-dimensional space.
OpenExo, a modular exoskeleton powered by CubeMars robotic actuators, offering open-source innovation for rehabilitation and human performance enhancement.
See how a 15-year-old built and tested a robot dog’s balance using CubeMars AK70-10 actuators, achieving real-time stability on uneven terrain with advanced control.
Discover how the CubeMars GL60II hollow gimbal motor powers RoboMaster engineering robots with tangle-free design, ultra-low cogging torque, and precise control.
Create your own programmable camera arm with CubeMars actuators. Discover CamRo, an open-source, dual-axis robotic rig for smooth, cinematic motion control.
AK80-9 robotic actuators power Georgia Tech's AI exoskeletons, achieving 86% energy efficiency improvement and real-time terrain adaptation for enhanced mobility.
The agricultural quadruped robot dog navigates fields, collects data, and performs tasks that traditional wheeled robots and drones cannot handle on complex terrain.
