AMTI

AMTI manufactures world-leading force measurement systems and clinical gait tools. Their multiaxis force plates and instrumented treadmills are used extensively by exoskeleton developers to evaluate the impact of wearable systems on ground reaction forces and balance. They provide enabling technology for the precise kinetic validation of human augmentation systems in academic and clinical settings.

Bertec

Bertec manufactures high-precision force measurement systems and balance assessment tools. Their instrumented treadmills and force plates are key components of modern gait labs, used to evaluate the impact of exoskeletons on ground reaction forces and user stability. They provide ‘enabling technology’ for the wearable robotics industry by offering objective kinetic data required for biomechanical evaluation.

Kistler

Kistler develops high-end sensors and measurement systems for industrial and biomechanical applications. Their force plates and torque sensors are used in the development and testing of exoskeletons to ensure safety and performance. They provide ‘enabling technology’ for the wearable robotics industry, specializing in piezoelectric and strain-gauge sensors for precise measurement of human-machine forces.

Smartex

Smartex develops innovative ‘smart textiles’ that integrate physiological sensors (ECG, breathing, movement) directly into garments. Their technology is a key ‘enabling tool’ for the soft exosuit and wearable robotics industry, providing the sensing layer required for monitoring user status and device control. They focus on textile-based biofeedback for health, sports, and industrial safety.

Simi Reality Motion Systems

Simi develops marker-based and markerless motion capture systems and analysis software. Their technology is used to quantify movement kinematics for clinical gait analysis and performance evaluation of wearable robotics. They provide enabling technology for the exoskeleton industry by offering objective metrics on user movement patterns and device efficacy in real-world scenarios.

C-Motion

C-Motion develops Visual3D, the industry-standard software for biomechanical analysis and the processing of 3D motion capture data. Their technology is used by exoskeleton researchers to calculate joint angles, moments, and powers, providing the objective metrics required for clinical validation and performance evaluation. They operate as a key enabling technology provider in the global human movement […]

AnyBody Technology

AnyBody Technology develops the AnyBody Modeling System, the world’s most advanced software for musculoskeletal simulation. Their technology allows researchers to create digital twins of the human body and simulate the physical interaction with wearable robotic devices. It is used by the exoskeleton industry to optimize design, predict muscle force reduction, and evaluate ergonomic impact before […]

Qualisys

Qualisys develops high-precision optical and inertial motion capture systems. Their technology is used to track human movement in real-time, providing critical data for the development and validation of medical and industrial exoskeletons. They specialize in high-speed, outdoor, and underwater motion capture, providing ‘enabling technology’ for a variety of augmentation research environments.

OptiTrack

OptiTrack manufactures high-performance optical motion tracking systems. Their technology is used for the real-time tracking of humans and robots, facilitating the development, control, and evaluation of exoskeletons. They provide enabling technology for the wearable robotics market, emphasizing ease of use, low latency, and high accuracy for research and commercial applications.

StretchSense

StretchSense specializes in soft, stretchable sensors and wearable gloves for motion capture. Their technology uses capacitive sensing to track complex movements of the hand and fingers without rigid components. They provide enabling sensors for the wearable robotics and exoskeleton industry, facilitating the development of flexible, textile-integrated control interfaces.