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An actuator with physically variable stiffness for highly dynamic legged locomotion

Jonathan Hurst, Joel Chestnutt, A.A. Rizzi

Year
2004
Citations
209

Abstract

Running is a complex dynamical task which places strict design requirements on both the physical components and software control systems of a robot. This paper explores some of those requirements and illustrates how a variable compliance actuation system can satisfy them. We present the design, analysis, simulation, and benchtop experimental validation of such an actuator system. We demonstrate, through simulation, the application of our prototype actuator to the problem of biped running.

Keywords

ActuatorVariable (mathematics)Computer scienceControl engineeringTask (project management)RobotControl theory (sociology)StiffnessSimulationSoftware

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