Each muscle strap features a load sensor that models a tendon in a human leg, sensing muscle tension when a muscle is contracted and sending signals to the brain about how much force is being exerted and where. Muscle contraction is mimicked by rotating the motor to pull on Kevlar straps. This setup is similar to the mental mechanism that allows human babies to learn to walk-a pair of neurons enables their little legs to work in rhythm with practice.Įach leg of the university's robot consists of a hip, knee and ankle moved by nine muscle actuators. Lewis and Klein's robot features the simplest form of a CPG-just two neurons that fire signals alternately to produce a rhythm, as well as load sensors that determine force in the limb when each leg presses against a stepping surface. The CPG creates and controls these signals based on information it gathers from the legs, which indicate, for example, the slope and solidity of a surface as they walk. The CPG is a neural network producing rhythmic signals that allow the body to generate the step cycle needed for locomotion.
YOUTUBE MOVES LIKE JAGGER GENERATOR
Humans have a central pattern generator (CPG) in their spinal cord's lumbar region. Like many roboticists, Lewis and Klein looked to nature for inspiration.
student at the lab, are publishing a study on Friday in the Journal of Neural Engineering detailing how they were able to accomplish this. Anthony Lewis, director of Arizona's Robotics and Neural Systems Laboratory, and Theresa Klein, a Ph.D. Although the gait is a bit stiff, the robot legs flex and even have some swagger. Indeed, the video below makes a compelling case. So says a team of University of Arizona engineers who claim to have built a set of robotic legs that mimic the human gait better than any other artificial life form to date. Yet rhythm-or the neurophysiological processes that enable humans to produce patterns of recurring movement-is the key to creating bots that move more like people. In popular fiction, humanoid robots have no rhythm-look no further than the "robot dance" for evidence of this.