AnyBody Technology

AnyBody Technology develops the AnyBody Modeling System, the world’s most advanced software for musculoskeletal simulation. Their technology allows researchers to create digital twins of the human body and simulate the physical interaction with wearable robotic devices. It is used by the exoskeleton industry to optimize design, predict muscle force reduction, and evaluate ergonomic impact before […]

EASE – Ergonomische Assistenzsysteme

EASE develops active (powered) wearable assistants for the logistics and manufacturing sectors. Their primary product is a lightweight active exoskeleton designed to support the arms and shoulders during lifting and carrying tasks. The system utilizes AI-supported intention recognition and high-performance TQ-RoboDrive motors to provide seamless assistance with minimal delay.

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.

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.

Quantop

Quantop develops ergonomic wearable systems to reduce musculoskeletal risk for manual laborers. Their products include passive mechanical exoskeletons for lower back and shoulder support, designed for tasks such as lifting, logistics, and overhead work. They emphasize modularity and ease of integration into existing industrial workwear.

AUXSYS

AUXSYS develops powered full-body exoskeletons designed for holistic human augmentation. Their technology aims to support the wearer in a variety of high-load tasks in industry, construction, and defense. They focus on active systems that can handle overloads and reduce fatigue across multiple body regions through integrated motorized assistance.

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.

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.

MM Norden

MM Norden develops ergonomic solutions for the Scandinavian industrial market. Their primary product, the MMEXO, is a passive mechanical exoskeleton designed to relieve static load on the arms and shoulders. It is targeted at assembly tasks where the user’s arms are elevated for extended periods, transferring load from the upper body to the hips and […]

Myontec

Myontec develops ‘smart’ compression garments with embedded electromyography (EMG) sensors. Their Mbody system accurately measures muscle activation and performance in real-time, providing data on muscle balance, fatigue, and loading. While not a mechanical exoskeleton, their technology is a key enabling tool for ergonomic assessment and control in the wearable robotics sector.