Maxon
Maxon is a world-renowned manufacturer of high-precision motors, gearheads, and motor control systems. Their drive systems are central to the development of many leading exoskeletons and prosthetics, offering high efficiency and power-to-weight ratios. They provide enabling technology through a dedicated medical robotics division focusing on the specific requirements of wearable systems.
AUXSYS
AUXSYS develops powered full-body exoskeletons designed for holistic human augmentation. Their technology aims to support the wearer in a variety of high-load tasks in industry, construction, and defense. They focus on active systems that can handle overloads and reduce fatigue across multiple body regions through integrated motorized assistance.
CASIC Exoskeleton R&D
CASIC develops high-performance wearable robotic systems as part of its aerospace and defense R&D. Their exoskeleton projects focus on heavy-duty load carriage for soldiers and support for logistics personnel in extreme environments. They emphasize high-power density actuators and ruggedized mechanical designs for strategic and industrial applications.
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 […]
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.
InteSpring
InteSpring, based in the Delft robotics hub, specialized in passive compensation systems. They developed the Exobuddy (military load carriage system) and the Balancer (industrial tool support). While the company remains active in engineering consultancy and mechanical innovation, its standalone exoskeleton product line is reported as historical or project-based.
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.
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.
Mitsubishi Heavy Industries
Mitsubishi Heavy Industries (MHI) has a historical interest in wearable robotics, particularly for high-stress and hazardous environments. They developed a ‘Power Assist Suit’ (PAS) exhibited in the mid-2010s, intended for use in nuclear disaster recovery operations. While MHI remains a major industrial force, their standalone commercial exoskeleton development is reported as historical or project-based research.
Dephy
Dephy develops powered ankle-foot orthoses (AFO) and exoskeletons aimed at enhancing human performance and assisting with mobility impairments. Their ‘Ankle Boot’ is a self-contained, powered system designed for gait assistance and load carriage, utilizing advanced actuators and controls developed through university-led research (MIT).