Shanghai Fuliye

Shanghai Fuliye Intelligent Technology focuses on robotic rehabilitation devices. Their primary product is a powered lower-limb exoskeleton designed for walking assistance and gait training in clinical environments. The system aims to support patients with spinal cord injuries and other neurological mobility limitations.

Moveo

Moveo develops the ExoBand, a lightweight and accessible passive exosuit designed to assist individuals with walking impairments. The system uses elastic energy stored during the gait cycle to provide assistance to the hip and lower limbs. It is intended for both clinical rehabilitation and daily use at home for elderly and patients with neurological conditions.

Autonomyo

Autonomyo develops a robotic exoskeleton designed to assist individuals with gait impairments. Their technology focuses on providing active support for walking and balance training, particularly for patients with multiple sclerosis or Parkinson’s disease. The system is designed to facilitate functional training in both clinical and community settings.

Myolyn

Myolyn develops wearable and stationary devices that combine Functional Electrical Stimulation (FES) with mechanical support. Their MyoCycle allows individuals with paralysis to pedal a bike using their own muscles. They also focus on FES technology for gait assistance, targeting patients with SCI, MS, and stroke to improve functional movement and overall health.

Milebot Robotics

Milebot Robotics develops robotic systems for medical rehabilitation. Their flagship Bear-H1 is a lower-limb powered exoskeleton for gait training in patients with stroke, SCI, and multiple sclerosis. The company focuses on clinical-grade walking assistance and functional movement recovery.

FREE Bionics

FREE Bionics develops robotic assistive devices for gait rehabilitation. Their FREE Walk is a powered hip-knee exoskeleton designed for walking assistance for people with spinal cord injury and other mobility conditions. The company originated from the Industrial Technology Research Institute (ITRI) and focuses on human-centered design for mobility.

Wearable Robotics srl

Wearable Robotics srl develops high-performance exoskeletons for clinical and research purposes. Their products include the ALEX (Active Leg Exoskeleton) for gait rehabilitation and upper-limb systems. The company specializes in low-inertia robotic joints and advanced human-machine interfaces for neurological impairment recovery.

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.

Oymotion

Oymotion specializes in bio-signal detection and human-computer interaction. Their wearable portfolio includes the gForce series of EMG armbands for gesture control and the OY-680 robotic glove for hand rehabilitation. They also produce EMG-controlled bionic hands, integrating advanced sensor technology to allow intent-based movement for amputees and neurological patients.