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.

Articares

Articares develops intelligent rehabilitation systems designed to behave as clinical partners for therapists. Their flagship product, the H-Man, is a compact, portable robotic device for upper-limb neurorehabilitation. It uses AI-driven assessments to adapt therapy difficulty to the patient’s real-time performance, aimed at stroke, brain injury, and elderly patients.

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.

INSPIRE-ROBOTS

INSPIRE-ROBOTS develops high-precision micro-actuation systems and dexterous manipulators. Their micro linear servo actuators are designed for compact robotics, including wearable systems and robotic hands for clinical and service use. They focus on providing integrated ‘moving parts’ for human-like robotic interaction and augmentation.

Instead Technologies

Instead Technologies develops innovative robotic solutions for healthcare. Their flagship system, In-Touch, is designed for the intensive rehabilitation of the upper limbs in patients with neurological damage. They focus on providing affordable, evidence-based robotic tools that facilitate motor recovery through repetitive, task-oriented exercises in clinical settings.

Fraunhofer Exoskeleton Lab

Fraunhofer, through institutes like IML (Logistics) and IZM (Microintegration), operates an Exoskeleton Lab dedicated to the research and evaluation of wearable robotics. They provide industrial companies with neutral performance assessments, site-specific ergonomic analyses, and technology development services. They focus on back-support and overhead-relief systems for operational logistics and production environments.

Istituto Italiano di Tecnologia – Rehab Technologies

The Istituto Italiano di Tecnologia (IIT), through its Rehab Technologies lab (in collaboration with INAIL), develops innovative wearable robots for health and labor. Their projects include the TWIN lower-limb exoskeleton for individuals with complete paralysis and the XoSoft soft exosuit. They focus on modularity, ease of use, and clinical validation for neurological rehabilitation and industrial […]

AIT Austrian Institute of Technology

AIT is Austria’s largest research and technology organization. Their Center for Vision, Automation & Control conducts R&D into wearable robotics, focused on industrial efficiency and health. They engage in the development and validation of exoskeleton systems for manufacturing and logistics, emphasizing sensor-based assistance and safe human-robot interaction.