Hocoma

Hocoma is a major provider of robotic and sensor-based solutions for functional movement therapy. Its core products include the Lokomat, a robotic gait trainer that automates treadmill training for neurological patients, the Erigo for early mobilization in upright positioning, and the Andago for overground gait training. These systems are used in clinical settings for rehabilitation […]

Tyromotion

Tyromotion develops specialized robotic and sensor-based equipment for neurological rehabilitation. Its product line features the Amadeo (finger/hand rehabilitation), Diego (bilateral arm rehabilitation), Lexo (robotic gait trainer), and Omego (lower limb functional therapy). The systems are designed for patients across the continuum of care, from acute phase to home-based therapy.

Reha Technology

Reha Technology focuses on advanced robotic systems for neurorehabilitation. Their flagship G-EO System is an end-effector based robotic gait trainer that can simulate various walking scenarios, including stair climbing and descending. It is designed to assist patients in reclaiming mobility after stroke, TBI, or other neurological impairments.

Hyundai Motor Group

Hyundai Motor Group has developed a range of wearable robots as part of its ‘Robotics Lab’ initiatives. Its portfolio includes the VEX (Vest Exoskeleton) for overhead work, the CEX (Chairless Exoskeleton) for knee joint support during seated tasks, and the H-MEX (Hyundai Medical Exoskeleton) for gait assistance for individuals with lower-limb paralysis. The company focuses […]

BAMA Teknoloji

BAMA Teknoloji manufactures robotic rehabilitation systems. Their RoboGait system is a robotic-assisted gait therapy system that utilizes a powered exoskeleton and treadmill to retrain walking patterns in neurologically impaired patients. They also develop wearable robotic devices for clinical use.

Lockheed Martin

Lockheed Martin develops exoskeleton systems for military and heavy industrial use. Key projects include ONYX, a powered lower-limb exoskeleton for soldier endurance, and FORTIS, a passive system for managing heavy tool weight in industrial environments. These systems are part of broader human augmentation research.

Honda

Honda developed the Walking Assist Device for gait rehabilitation. The hip-powered system assists users in improving stride length and walking speed. The technology is informed by Honda’s research into bipedal robotics.

Panasonic

Panasonic conducts corporate research into ‘power assist’ technologies for logistics and healthcare. While specialized commercial exoskeleton activities were historically concentrated in its subsidiary ATOUN, the parent company maintains R&D in fabric actuators and sensor-based human assistance.

ATOUN

ATOUN was a Panasonic-backed company that specialized in powered exoskeletons for heavy labor. Their Model Y back support system was utilized in logistics and baggage handling operations. The company’s technology has influenced subsequent developments in the sector.

Bionic Yantra

Bionic Yantra develops the Robotic Exoskeleton Assisted Rehabilitation System (REARS). The system is a powered lower-limb exoskeleton designed to assist patients with spinal cord injury and stroke during gait training. The company aims to increase access to advanced rehabilitation technology.