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.

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.

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.

MindRove

MindRove develops high-performance wearable sensors for brain (EEG) and muscle (EMG) activity. Their products, such as the MindRove EMG armband and EEG headset, provide wireless, real-time bio-signal detection for gesture control, clinical research, and neural interface development. They operate as an enabling technology provider for the wearable robotics and neuro-rehabilitation markets.

exoIQ

exoIQ develops active (powered) wearable robotic systems for the industrial workforce. Their primary product, the S700, is an active shoulder-support exoskeleton designed for overhead work. Unlike passive systems, the S700 uses motorized assistance to provide dynamic relief for workers in manufacturing and construction, specifically addressing strain during repetitive or sustained above-shoulder tasks.

Tacle

Tacle develops wearable assist systems designed to reduce physical load in industrial and caregiving environments. Their focus is on ergonomic mechanical aids that support the back and lower limbs during repetitive bending and lifting tasks. They aim to provide intuitive, wearable solutions that enhance worker productivity and well-being.

unhindr

unhindr develops ‘wearable robotics’ intended to bridge the gap between prosthetics and assistive devices. Their technology focuses on advanced material science and AI-driven control to provide seamless assistance for individuals with limb impairments. They utilize smart materials and adaptive algorithms to enhance functional mobility and comfort in wearable robotic applications.