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.
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.
Toyoda Gosei
Toyoda Gosei develops ‘e-Rubber’, a next-generation smart polymer that acts as both a sensor and an actuator. They utilize this technology to create soft robotic wearable devices, including rehabilitation gloves for hand therapy. Their systems aim to provide lightweight, highly flexible assistance for finger movement recovery after stroke or hand injury.
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.
Gait Up
Gait Up, a spin-off of EPFL and CHUV, specializes in motion sensing technology for human movement analysis. Their wearable sensors and algorithms provide objective metrics for gait and physical activity, which are used to evaluate the efficacy of rehabilitation and the performance of wearable robotic devices. They are a provider of ‘enabling technology’ within the […]
Technaid
Technaid develops robotic and motion analysis systems intended for health and movement science. Their Exo-H3 is a powered lower-limb exoskeleton specifically designed for research into robotic rehabilitation and gait analysis. They also provide inertial motion capture sensors used in conjunction with wearable robotics for precise movement tracking.
AIDIN ROBOTICS
AIDIN ROBOTICS specializes in industrial automation and force-sensing technologies. They develop wearable robotic solutions that utilize advanced sensor systems to facilitate safe collaboration between humans and robots. Their products aim to enhance productivity in industrial settings while ensuring worker safety through force-feedback and motion assistance.
Rise Robotics
Rise Robotics develops the ‘Rise Cylinder’, a high-efficiency linear actuator designed to replace hydraulics in heavy-duty applications. Their technology is used to power industrial-grade exoskeletons and heavy machinery, providing significant energy savings and high power-to-weight ratios. The company focuses on the ‘Enabling Technology’ segment of the exoskeleton market.
Humotech
Humotech provides research platforms that allow for the rapid prototyping and testing of wearable robotics, orthotics, and prosthetics. Their Caplex system is an ’emulator’ that uses off-board motors to simulate various device behaviors on a human user. The company serves academic and industrial researchers by facilitating evidence-based design before physical prototyping.
Oymotion
Oymotion specializes in bio-signal detection and human-computer interaction. Their wearable portfolio includes the gForce series of EMG armbands for gesture control and the OY-680 robotic glove for hand rehabilitation. They also produce EMG-controlled bionic hands, integrating advanced sensor technology to allow intent-based movement for amputees and neurological patients.