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.
EASE – Ergonomische Assistenzsysteme
EASE develops active (powered) wearable assistants for the logistics and manufacturing sectors. Their primary product is a lightweight active exoskeleton designed to support the arms and shoulders during lifting and carrying tasks. The system utilizes AI-supported intention recognition and high-performance TQ-RoboDrive motors to provide seamless assistance with minimal delay.
Exosurge
Exosurge develops wearable robotic systems for human augmentation. Their products include passive industrial exoskeletons for back support and powered medical systems for gait rehabilitation. They focus on affordable technology to improve physical productivity and support clinical recovery in the Indian market.
Quantop
Quantop develops ergonomic wearable systems to reduce musculoskeletal risk for manual laborers. Their products include passive mechanical exoskeletons for lower back and shoulder support, designed for tasks such as lifting, logistics, and overhead work. They emphasize modularity and ease of integration into existing industrial workwear.
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.
Tacle
Tacle develops wearable assist systems designed to reduce physical load in industrial and caregiving environments. Their focus is on ergonomic mechanical aids that support the back and lower limbs during repetitive bending and lifting tasks. They aim to provide intuitive, wearable solutions that enhance worker productivity and well-being.
Help Tech
Help Tech, through its HTExo division, develops ergonomic wearable solutions for the workforce. Their primary product, the BionicBack, is a lightweight passive exoskeleton designed to relieve lower back strain during lifting and bending. The system uses a mechanical cushioning system to store energy during bending and release it during straightening, aimed at preventing chronic back […]
ARMASTEC
ARMASTEC specializes in lightweight, fabric-based wearable robotics. Their flagship product, the AireLevate suit, uses compressed air and regulated fabric muscles to provide up to 55% lifting support to the lower back. The system is designed to be machine-washable and highly breathable, catering to industries such as manufacturing, logistics, and healthcare where comfort and hygiene are […]
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.