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Simulation verification for the robustness of passive compass gait with a joint stiffness adjustment

Hitoshi Kino, Kosuke Sakata, Mitsunori Uemura, Naofumi Mori

Year
2019
Citations
14

Abstract

A passive walking robot can achieve a smooth gait without any sensory feedback while walking down a slope. This phenomenon is based on the transformation of potential energy into kinetic energy in the legs. Although the entrainment is observed in a passive gait motion, there is a possibility that the passive gait cannot be achieved in the case of variations in physical parameters, initial conditions, and disturbances. To realize a robust passive gait against variations in physical parameters, this paper proposes a passive gait system that possesses a joint stiffness adjustment. Targeting a compass model, this paper investigates the effectiveness of the proposed method for a passive gait against variations in slope angle and hip joint mass through simulation. As a result, the simulation results show that this method especially has strong robustness against the slope angle variation.

Keywords

GaitRobustness (evolution)TorsoEffect of gait parameters on energetic costControl theory (sociology)StiffnessComputer scienceSimulationGait analysisEngineering

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