U&O

Official evidence describes UAN.GO as an active lower-limb exoskeleton for robotic gait training and rehabilitation. The row was user-approved as low confidence, so keep it unverified and draft-only.

Roki Robotics

Official evidence describes Roki Robotics as creating exoskeletons for mobility and rehabilitation, including ROKI PRO and Rokids. Keep categories focused on medical/rehab lower-limb mobility.

Healing Innovations

Official evidence describes Rise&Walk as a neurorehabilitation station for helping patients get back on their feet. Keep the draft focused on medical/rehab walking support; exoskeleton-specific evidence needs manual confirmation.

HIWIN

The existing official HIWIN product URL returned a 404 in the evidence set. Keep HIWIN as a draft candidate linked to MRG-P110, but leave use case, body area and technology unknown until an official current source is verified.

Hyundai

Existing official evidence lists Hyundai wearable robot pages for X-ble MEX and X-ble Shoulder. Because the row was user-approved as low confidence, keep it unverified and draft-only before import planning.

NX Robotic Rehabilitation

The official NX Robotic Rehabilitation source was unreachable in the existing evidence set. Keep as a medical/rehab lower-limb draft candidate based on product names and secondary evidence until current official evidence is confirmed.

Buffalo Robot Tech

Buffalo Robot Tech is a Chengdu-based rehabilitation robotics manufacturer focused on intelligent rehabilitation systems and exoskeleton robotics. Its official company materials describe the company as an industrialization base of the University of Electronic Science and Technology of China Robotics Research Center, integrating independent R&D, scale production and sales of exoskeleton robots. The company timeline states […]

AMTI

AMTI manufactures world-leading force measurement systems and clinical gait tools. Their multiaxis force plates and instrumented treadmills are used extensively by exoskeleton developers to evaluate the impact of wearable systems on ground reaction forces and balance. They provide enabling technology for the precise kinetic validation of human augmentation systems in academic and clinical settings.

OpenSim

OpenSim is a powerful, open-source software system for modeling human and animal movement and simulating the physical interaction with medical and assistive devices. Developed at Stanford University, it is the primary research platform for predicting the metabolic and biomechanical effects of exoskeletons. It serves as a central ecosystem provider for the global wearable robotics research […]

Kistler

Kistler develops high-end sensors and measurement systems for industrial and biomechanical applications. Their force plates and torque sensors are used in the development and testing of exoskeletons to ensure safety and performance. They provide ‘enabling technology’ for the wearable robotics industry, specializing in piezoelectric and strain-gauge sensors for precise measurement of human-machine forces.