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 ...

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 ...

The commercial market for technologies that augment human performance in the industrial workplace are ever-expanding. A wide range of whole-body, lower-limb, and upper-extremity devices now exist. The ...

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 previous article relegated military exoskeletons to the realm of science fiction, focusing on powered exoskeletons for supporting advanced combat suits. It sparked a number of responses, including ...

Over the past several years, occupational exoskeletons have evolved from concept to reality. They have become widely available and are used across a range of industries. Their primary function is to ...

Robotic boots providing superhuman reflexes can help your balance. Our new study shows that the key to augmenting balance is to have boots that can act faster than human reaction times. When people ...

Industrial exoskeletons strap onto workers' bodies to share the physical load, reducing muscle strain and fatigue during ...

East Hanover, NJ. June 15, 2023. A team of researchers has developed a new method for controlling lower limb exoskeletons using deep reinforcement learning. The method, described in a study published ...