RoboGolfPro
Official evidence describes RoboGolfPro as a robotic golf swing trainer, not clearly as a wearable exoskeleton. Keep as draft-only with sport use case and weak exoskeleton evidence for manual review.
Ski-Mojo / Ski Mojo
Official evidence describes Ski~Mojo as a skiing exoskeleton for knees and endurance, with purchasing and support pages. Keep as a sport/consumer lower-limb draft company.
AstroShell
Official evidence describes AstroShell Alpha 1 as a wearable powered leg exoskeleton for hiking and walking performance, with rental/trial positioning. Keep as a consumer/sport draft company pending final human review.
Navee
The user-supplied official Navee page links the company to Navee Exo S Pro. Keep as a consumer/sport mobility-assistance draft company, and verify final product claims before product-page planning.
Onerzia
Official evidence describes OnFlowUs as a passive, lightweight sports exoskeleton for elite athletes. Body-area details were not clear in the existing evidence, so leave body area unknown pending product review.
A10
π/π plus
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.