R-TOUCH
Soft exoskeleton/robotic glove rehabilitation device associated with BTL’s rehab robotics portfolio.
HAL Lower Limb
Cyberdyne HAL lower-limb wearable cyborg system for supporting and improving physical function.
HAL Single Joint
Wearable single-joint HAL device used for focused joint movement assistance/rehabilitation.
ExoMotus M4
Lower-limb gait rehabilitation exoskeleton from Fourier Intelligence.
Atalante X
Self-balancing lower-limb rehabilitation exoskeleton designed for multidirectional ambulation and clinical gait sessions.
EksoNR
Clinical lower-limb exoskeleton for gait rehabilitation in neurological conditions.
ReStore Exo-Suit
Powered soft exo-suit for gait training and paretic propulsion after stroke.
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.
Bertec
Bertec manufactures high-precision force measurement systems and balance assessment tools. Their instrumented treadmills and force plates are key components of modern gait labs, used to evaluate the impact of exoskeletons on ground reaction forces and user stability. They provide ‘enabling technology’ for the wearable robotics industry by offering objective kinetic data required for biomechanical evaluation.
Schoen Robotics
Schoen Robotics develops specialized medical robotics intended for upper-limb therapy. Their flagship product is a robotic glove system designed to assist patients with neurological impairments in regaining hand and finger dexterity. The company focuses on the clinical market in Germany, providing automated functional training solutions.