SYNACTIV TECH
The official SYNACTIV TECH source was unreachable in the existing evidence set. Keep the company as an unverified low-confidence draft and leave categories unknown until official evidence is available.
INOMER
Official evidence describes INOMER as building wearable robots to support and guide body movement, with inoGear HE-1 and walking rehabilitation research references. Keep as a medical/rehab draft pending final source review.
Kinarm
Existing official evidence links Kinarm to an Exoskeleton Lab solution. Keep the profile focused on arm/upper-limb research and medical assessment, not general commercial exoskeleton deployment.
ARC Technologies
ARC Technologies remains a draft-only candidate because the official source was unreachable in the existing evidence set. The only product signal is L.R.A.E.; categories should stay unknown until official evidence is verified.
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 […]
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.
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.
Healer ICT
Healer ICT specializes in AI-driven wearable systems for healthcare and mobility. Their focus is on intention detection for wearable robot hands and ankle exosuits for post-stroke rehabilitation. They leverage wearable sensor data, such as EMG and IMU, to provide adaptive control and coordinated assistance for individuals with neurological impairments.