Thera-Trainer
Thera-Trainer (Medica Medizintechnik) is a major developer of movement therapy systems. Their ‘Gait & Balance’ division produces the Lyra robotic gait trainer (end-effector system) and the Balo standing balance system. They provide clinical solutions for all phases of neurological rehabilitation, from early mobilization to overground training.
Delsys
Delsys manufactures electromyography (EMG) and physiological monitoring systems. Their Trigno wireless platform is a standard in the research community for measuring muscle activity and kinematics. They provide critical sensor technology used in the design, validation, and control of active exoskeletons and prosthetics, specializing in non-invasive bio-signal acquisition.
Cometa
Cometa specializes in the design of miniaturized wireless systems for electromyography (EMG) and motion tracking. Their Wave and Miniwave sensors provide objective data on muscle recruitment and gait kinematics. These systems are used as enabling technologies for clinical assessment and technology development within the global wearable robotics and rehabilitation sectors.
IRMO Global
IRMO Global develops high-tech consumer and sports exoskeletons. Their primary product, the IRMO M1, is a lightweight AI-powered leg exoskeleton that uses visual perception (Camera + LADAR) to adapt support to varying terrain in real-time. Designed for hikers and outdoor enthusiasts, it provides powered knee assistance to reduce fatigue and impact during treks and descents.
Noraxon
Noraxon develops high-end biomechanical sensors and motion capture systems used for human movement analysis. Their portfolio includes wireless electromyography (EMG), inertial sensors (IMU), and pressure-sensing tools. These systems are widely used as ‘enabling technology’ for the evaluation of exoskeletons and the development of bio-signal controlled wearable robotics in clinical and research contexts.
Sensodrive
Sensodrive develops and manufactures torque-sensing drive systems and actuators. Their SensoJoint series is a family of lightweight, torque-controlled robotic joints used in the development of collaborative robots and medical exoskeletons. They provide ‘enabling technology’ for manufacturers requiring high-fidelity force control and human-safe interaction in wearable robotic systems.
TQ-Systems (RoboDrive)
TQ-Systems, through its RoboDrive brand, manufactures high-torque density BLDC motors and drive systems. Their ILM-E frameless motor series is specifically optimized for weight and performance in wearable robotics, used by numerous exoskeleton manufacturers to achieve smooth human-robot interaction. They operate as a tier-1 component supplier for the global human augmentation market.
GaitBetter
GaitBetter develops an add-on system that transforms any standard treadmill into a motor-cognitive training platform. The system uses VR and motion sensors to provide real-time cognitive challenges and gait feedback, designed to improve executive function and reduce fall risk in neurological and geriatric patients. While not a wearable exoskeleton, it is a primary clinical robotic […]
Kinestica
Kinestica develops medical devices for the rehabilitation of patients with neuromotor disorders. Their product line includes BiMeo, a sensor-based system for active-assisted and bimanual upper-limb training, and Equio, an all-in-one balance rehabilitation platform. They combine motion-capture technology with gamified software to improve functional recovery and clinical assessment outcomes.
Exosurge
Exosurge develops wearable robotic systems for human augmentation. Their products include passive industrial exoskeletons for back support and powered medical systems for gait rehabilitation. They focus on affordable technology to improve physical productivity and support clinical recovery in the Indian market.