Bionik Laboratories
Bionik Laboratories produces the InMotion robotic systems for clinical neurorehabilitation. Their technology focuses on restoring upper-extremity motor control for patients with stroke, MS, and cerebral palsy. The InMotion robots use an ‘Assistance-as-Needed’ protocol and integrated machine learning to adapt therapy to the patient’s performance in real-time.
Motek
Motek (Motek Medical) develops high-end virtual reality and robotic systems for research and clinical rehabilitation. Their products, such as the C-Mill (robotic treadmill for balance and gait) and CAREN (Computer Assisted Rehabilitation Environment), provide integrated platforms for complex movement assessment and therapy. They focus on real-world simulation to enhance neuro-rehabilitation.
Human in Motion Robotics
Human in Motion Robotics develops the XoMotion, a powered lower-limb exoskeleton for people with mobility disabilities. The device features advanced degrees of freedom and is designed to provide natural gait and balance support for clinical and personal use. The company emphasizes its unique joint mechanism and autonomous balance control.
Bionic Power
Bionic Power produces the Agilik, a powered smart orthosis designed for children and adults with gait impairments such as crouch gait (Cerebral Palsy) or stroke. The device provides motorized knee assistance to improve mobility and endurance. Historically, the company is known for its Power-Harvesting Exoskeleton for military use, which generated electricity from the movement of […]
Hexar Humancare
Hexar Humancare (HexaHumanCare) develops a variety of wearable robotic systems. Their HECTOR series includes industrial exoskeletons for back support and lifting, while the RESILION series focuses on medical orthopedic devices for knee and arm rehabilitation. The company leverages Hanyang University’s robotic research to build powered systems for labor and therapy.
Aretech
Aretech produces the ZeroG system, a robotic body-weight support system that tracks a patient along an overhead track. It is designed to assist patients in walking, balance, and activities of daily living while providing fall protection. While not a wearable exoskeleton in the traditional sense, it is a primary robotic mobility platform for clinical rehabilitation.
Samsung Electronics
Samsung Electronics has introduced the GEMS (Gait Enhancing and Motivating System) platform, which includes GEMS-H (Hip), GEMS-K (Knee), and GEMS-A (Ankle). These lightweight, powered wearable robots are designed to assist individuals with limited mobility, providing gait support and strength enhancement. The system focuses on balance and energy efficiency for both clinical and home use.
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.