‘LimX Dynamics’ – Nextgen general purpose robots

LimX Dynamics is a general-purpose robot company with world-class academic and technological advancements. It is devoted to define and build exceptional general robots empowered by Embodied AI with a product lineup of humanoid robots, wheeled quadruped robots, as well as robotic software and hardware solutions. Their focus is in both B2B and B2C sectors, ranging from car manufacturing, industrial inspections, logistics and distribution, special operations to household services.

Wheeled Quadruped Robot
As the first product of LimX Dynamics, W1 combines the advantages of legged and wheeled structures all in one. Our leading Motion Intelligence technology and high-performing actuators enable it with powerful real-time perception and all-terrain mobility. W1 aims at China’s untapped B2B market such as industrial inspection, logistics and distribution, research and education.

Point-Foot Bipedal Robot
The point-foot biped provides stable gait walking in complex environments. High-performing joint modules, high-frequency real-time communications, and simple software development interfaces provide a reliable, efficient, and easy-to-use test platform for developing bipedal locomotion control algorithm.

Bipedal Robot
From bipeds gradually iterating to humanoids, we have been at the forefront of legged robot R&D, accumulating key technologies in humanoid designs, Motion Intelligence technology and robotic functions with a mission to build a top-notch general-purpose humanoid platform.

Quadruped Robot
X1 is the first-generation quadruped designed and built by LimX Dynamics. The prototype is a testbed of our leading Motion Intelligence technology and high-performing actuators. Both have undergone rigorous testing and verification.

Central to legged locomotion, planning and control mainly focus on finding highly dynamic motions for the robot platform in real-time. LimX Dynamics has mastered the leading technologies including model predictive control, reinforcement learning, high frequency torque control. We have a comprehensive grasp of the robot’s intrinsic physical movement capabilities. Based on the terrain information centered on the robot’s body and its relative position, combined with the real-time state of the robot including its location, position, orientation, joint angles, etc., we compute the optimal landing point, the magnitude of interaction forces, and the velocity of movement, achieving the best interaction between the robot and the terrain.

https://www.limxdynamics.com/en