The WalkON Suit F1 is about giving people with paraplegia more independence and mobility. As Professor Kong puts it, this suit is "the culmination of wearable robot technology for the disabled." ...

The WalkON Suit F1 can amble over to a patient seated in a wheelchair, install itself, and get the user up and walking. Exoskeletons have been helping paraplegic patients to walk for years, ...

Meet Kim Seung-hwan, who defied the odds and took his first steps with the help of the WalkON Suit F1, a groundbreaking Iron Man-inspired exoskeleton. Lil Wayne's 'SNL 50' performance reignites ...

A No Ordinary Exoskeleton By Any Means. WalkON Suit F1 employs the following revolutionary technology, according to FoxNews.. Active Exoskeleton Balancing - To stay upright, the system actively ...

WalkON Suit F1. Inspired by Iron Man: These researchers developed robot to aid paralysis patients. Inspired by the film series Iron Man, ...

The powered exoskeleton, named WalkON Suit F1, features aluminium and titanium composition to weigh in at 50 kg (110 lb), and is powered by 12 electronic motors that simulate the movements of ...

The powered exoskeleton, named WalkON Suit F1, weighs 50 kg (110 lb) and is powered by 12 electronic motors that simulate the movements of human joints while walking. Show comments.

In a nutshell: Inspired by Iron Man, South Korean researchers have developed a lightweight wearable robot designed to help wheelchair users walk. Known as the WalkON Suit F1, this advanced ...

Kim Seung-Hwan is paraplegic, but he's able to stand and walk because of a creation he had a hand in. The Walkon Suit F1 was thought up by a group of South Korean researchers who got their ...

'The WalkON Suit F1 can approach me wherever I am and I can wear it, even when I'm sitting in a wheelchair. I wanted to tell my son that I used to be able to walk too.

The powered exoskeleton, named WalkON Suit F1, features aluminum and titanium composition to weigh in at 110 pounds, and is powered by 12 electronic motors that simulate the movements of human ...