T-Robotics

T-Robotics develops a variety of robotic systems for industrial automation and healthcare. Their medical division focuses on wearable robotic systems for gait rehabilitation and mobility assistance. They aim to integrate high-precision vacuum robotics expertise into wearable solutions for clinical settings.

LIG Nex1

LIG Nex1 is a defense and aerospace company in South Korea. They develop the LEXO (Lower-extremity Exoskeleton for Operative) family of wearable robots. These include powered and passive systems designed to assist soldiers with load carriage and support industrial workers in heavy assembly. Their technology emphasizes high-torque density and natural human-robot interaction for extreme environments.

Hanwha Ocean

Hanwha Ocean (formerly DSME) is a historical pioneer in the development of industrial exoskeletons for heavy construction. In the early 2010s, they developed powered and passive ‘shipyard exoskeletons’ designed to help workers handle heavy components weighing up to 30kg. While primarily focused on large-scale shipbuilding, their research into human augmentation remains a landmark project in […]

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.

WiRobotics

WiRobotics develops wearable robots for lifestyle and healthcare. Their flagship product, the WIM, is a lightweight hip-powered exoskeleton designed for walking assistance, hiking, and daily mobility. The company focuses on the B2C market and elderly care, aiming to provide gait enhancement in a form factor comparable to apparel.

Field Robot Technology

Field Robot Technology (FRT) develops wearable robotic systems for heavy labor and specialized missions. Their products include the HYPER series of industrial exoskeletons designed for lifting support and load carriage. They focus on modular and durable designs suitable for construction, firefighting, and industrial environments.

Bioventus (Bioness)

Bioness, now part of Bioventus, develops wearable functional electrical stimulation (FES) systems. Their primary products, the L300 Go and H200 Wireless, are wearable devices designed to improve mobility for patients with foot drop or hand impairments resulting from stroke, MS, or TBI. These systems utilize stimulation to activate muscles, integrated into low-profile wearable orthoses.

HUROTICS

HUROTICS develops wearable robotic systems using tendon-driven technology to mimic muscle contraction. Their portfolio includes lightweight assistants designed for clinical rehabilitation, sports performance, and daily mobility. They utilize AI motion analysis and digital twin technology to provide personalized gait support and training guidance.

Siyi Intelligence

Siyi Intelligence develops soft robotic systems for clinical and home rehabilitation. Their flagship Syrebo rehabilitation gloves use pneumatic or electromechanical actuators to provide passive, active-assisted, and resistance training for hand and finger recovery. The system is designed for patients with stroke, spinal cord injury, and other neurological conditions, often featuring bilateral mirror therapy.

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.