OmniSuit
Passive occupational exoskeleton designed for multiple manual work use cases.
Apex 2
Soft, lightweight, battery-free back-assist exosuit for bending and lifting tasks.
SafeLift
Powered wearable soft exosuit for reducing strain during repetitive lifting and material handling.
Exia
AI-powered industrial exoskeleton for physically demanding work including lifting, carrying, walking and bent-over postures.
Ekso EVO
Passive upper-body exoskeleton for overhead and repetitive arm work.
HeXo
HeXo specializes in ergonomic solutions for the industrial and logistics workforce. Their primary product is a passive back-support exoskeleton designed to reduce physical load during lifting and handling tasks. They emphasize lightweight, textile-integrated designs aimed at improving worker safety and long-term health in manufacturing and transport industries.
OpenSim
OpenSim is a powerful, open-source software system for modeling human and animal movement and simulating the physical interaction with medical and assistive devices. Developed at Stanford University, it is the primary research platform for predicting the metabolic and biomechanical effects of exoskeletons. It serves as a central ecosystem provider for the global wearable robotics research […]
Exoneer
Exoneer develops ergonomic wearable robotic systems designed to reduce physical load in industrial and logistics environments. Their focus is on passive back-support systems that use spring-based energy storage to assist workers with lifting and bending tasks. They aim to provide intuitive, wearable solutions that enhance worker productivity and prevent lower-back injuries in manufacturing.
Mica
Mica Robotics develops ergonomic wearable systems focused on industrial load reduction. Their primary product is a passive back-support exoskeleton designed to assist workers in logistics and manufacturing with repetitive lifting and bending. They emphasize a slim, lightweight design to minimize interference with daily industrial tasks.
Smartex
Smartex develops innovative ‘smart textiles’ that integrate physiological sensors (ECG, breathing, movement) directly into garments. Their technology is a key ‘enabling tool’ for the soft exosuit and wearable robotics industry, providing the sensing layer required for monitoring user status and device control. They focus on textile-based biofeedback for health, sports, and industrial safety.