U&O

Official evidence describes UAN.GO as an active lower-limb exoskeleton for robotic gait training and rehabilitation. The row was user-approved as low confidence, so keep it unverified and draft-only.

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.

Spineband AB

The official Spineband source was inaccessible in the existing evidence set. Keep the row as an unverified low-confidence draft, with only back-area signal from the product name until official evidence is confirmed.

Tendo

The official Tendo source redirected too many times in the existing evidence set. Keep as an unverified low-confidence hand-assistance draft candidate until official product evidence is confirmed.

ATDev

Existing official evidence describes Reflex as a telehealth-enabled robotic rehabilitation device for orthopedic knee rehabilitation. Exoskeleton-specific evidence is weak, so keep ATDev as draft-only pending manual confirmation.

HIWIN

The existing official HIWIN product URL returned a 404 in the evidence set. Keep HIWIN as a draft candidate linked to MRG-P110, but leave use case, body area and technology unknown until an official current source is verified.

Hocoma (via HAI4M)

Existing official evidence is from HAI4M pages for ArmeoPower and ArmeoSpring under arm and hand rehabilitation robotics. Treat as a distributor/provider-style candidate and verify the correct company identity before import.

NX Robotic Rehabilitation

The official NX Robotic Rehabilitation source was unreachable in the existing evidence set. Keep as a medical/rehab lower-limb draft candidate based on product names and secondary evidence until current official evidence is confirmed.

EXOKO

EXOKO develops robotic wearable systems focused on gait assistance and mobility support. Their technology aims to provide powered lower-limb assistance for patients with walking disabilities. They focus on accessibility and portable robotic solutions for clinical and home rehabilitation.

Hylite

Hylite Robotics develops wearable systems designed to reduce physical strain in demanding labor environments. Their focus is on creating lightweight, affordable exoskeletons that support the back and shoulders during lifting and overhead tasks. They utilize mechanical and hybrid assist technologies to optimize worker safety and comfort.