TWIN is a wearable robot for individuals with reduced or absent motor abilities, enabling them to stand up, maintain an upright position, walk, and sit. Milan (Italy), 23 February 2024 – TWIN is the ...

Lower-body exoskeletons don't merely thrust the wearer's legs forward – they move them based on the user's existing gait. A team at Harvard University has now developed what is claimed to be a better ...

Georgia Tech researchers are using AI to quickly train exoskeleton devices, making it much more practical to develop, improve, and ultimately deploy wearable robots for people with impaired mobility.

A team of researchers has developed a new method for controlling lower limb exoskeletons using deep reinforcement learning. The method enables more robust and natural walking control for users of ...

A research paper by scientists at Hainan University proposed FSS-eq2Seq as a 2-stage strategy for gait synergy modeling in lower limb assistive devices to achieve synergic and user-adaptive ...

This story is part of a series on the current progression in Regenerative Medicine. This piece discusses the regeneration of the cardiovascular system. In 1999, I defined regenerative medicine as the ...

AI and robotics are driving innovation in assistive technology. But there's still work to be done to ensure that the tech is affordable and widely available. This article is part of "5G and ...