Home /Research /FastRunner: A fast, efficient and robust bipedal robot. Concept and planar simulation
LOCOMOTION

FastRunner: A fast, efficient and robust bipedal robot. Concept and planar simulation

Sébastien Cotton, Ionut Mihai Constantin Olaru, Matthew J. Bellman, Tim van der Ven, Johnny Godowski, Jerry Pratt

Year
2012
Citations
55

Abstract

Bipedal robots are currently either slow, energetically inefficient and/or require a lot of control to maintain their stability. This paper introduces the FastRunner, a bipedal robot based on a new leg architecture. Simulation results of a Planar FastRunner demonstrate that legged robots can run fast, be energy efficient and inherently stable. The simulated FastRunner has a cost of transport of 1.4 and requires only a local feedback of the hip position to reach 35.4 kph from stop in simulation.

Keywords

RobotComputer sciencePlanarPosition (finance)Stability (learning theory)Robot locomotionRobot kinematicsControl theory (sociology)BipedalismSimulation

Related papers

Browse all LOCOMOTION papers