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.

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.

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.

Techvantage

Techvantage develops data-driven solutions for various sectors, including healthcare. Their wearable robotics initiatives focus on gait analysis and powered assistance for patients with mobility limitations. They aim to leverage AI and sensor data to provide personalized rehabilitation and monitoring systems.

GoX Studio

GoX Studio develops ‘Smart Wearables’ that combine sensors with biomechanical modeling to prevent workplace injuries and enhance athletic performance. Their systems analyze movement data to provide insights into ergonomic risk and fatigue, functioning as a data-driven wearable robotics platform. They focus on protecting the ‘Industrial Athlete’ through real-time monitoring and soft support.

Myorobotics

Myorobotics provides an open-source, modular robotic toolkit designed to mimic human musculoskeletal structures. The platform includes muscle-like actuators, bone-like links, and tendons, which are used by researchers to develop next-generation exoskeletons and humanoid robots. It serves as an enabling technology platform for the wearable robotics research community.

NT Robot

NT Robot develops a range of robotic solutions for industrial automation and human-care services. Their wearable division focuses on robotic systems for gait rehabilitation and mobility support. They also engage in research on exoskeleton control and bio-signal processing for human augmentation.

Kinetic

Kinetic develops wearable technology to prevent workplace injuries. Their flagship device, the Reflex, is a sensor-based wearable that detects high-risk movements such as improper lifting or twisting and provides real-time haptic biofeedback to the user. The system also tracks ergonomics data for safety managers to identify high-risk areas in logistics and manufacturing operations.

Veristride

Veristride develops wearable sensor technology and software intended for gait monitoring and rehabilitation. Their technology provides real-time biofeedback to patients and clinicians, aiming to improve walking symmetry and reduce fall risk for individuals with mobility impairments. They operate as an enabling technology provider for the medical and wearable robotics sectors.

ExoSystems

ExoSystems develops wearable healthcare devices for neurological and orthopedic rehabilitation. Their product, the exoRehab, is a wearable device that combines electrical stimulation with motion sensors and AI analysis. It is designed to provide personalized muscle strengthening and gait training for patients with muscle atrophy or mobility limitations.