The robot's legs move like human legs

American experts have for the first time perfected the technology, making the robot legs move like human legs.

To create this breakthrough, experts from the University of Arizona have used ground-based knowledge from the field of neural architecture, skeletal muscle architecture, as well as data collection from motion. go in person

As a result, the robotic legs have achieved the most accurate biological measurements against human feet ever, according to the Journal of Neural Engineering, which led researchers.

Picture 1 of The robot's legs move like human legs
Robot legs running rhythmically on the treadmill - (Photo: Journal of Neural Engineering)

The core of the human motor system is the central CPG , which is the nervous system in the spinal cord region, which emits smooth muscle signals that allow people to work. Walk without thinking much about it.

The simplest form of the CPG is the half-system, or semi-central, that contains two alternating nerves that signal, and that's what the team decides to emulate.

The information is transferred back to the semiconductor unit by a myriad of different sensors, including one that senses the force in the foot when the foot hits the ground.

In addition to robot applications, the work could contribute to the healing effects of spinal cord injuries, according to BBC News.