首页 /研究 /Approximate analytical solutions to the double-stance dynamics of the lossy spring-loaded inverted pendulum
LOCOMOTION

Approximate analytical solutions to the double-stance dynamics of the lossy spring-loaded inverted pendulum

Mohammad Shahbazi, Uluc̣ Saranlı, Robert Babuška, Gabriel A. D. Lopes

发表年份
2016
引用次数
6

摘要

This paper introduces approximate time-domain solutions to the otherwise non-integrable double-stance dynamics of the 'bipedal' spring-loaded inverted pendulum (B-SLIP) in the presence of non-negligible damping. We first introduce an auxiliary system whose behavior under certain conditions is approximately equivalent to the B-SLIP in double-stance. Then, we derive approximate solutions to the dynamics of the new system following two different methods: (i) updated-momentum approach that can deal with both the lossy and lossless B-SLIP models, and (ii) perturbation-based approach following which we only derive a solution to the lossless case. The prediction performance of each method is characterized via a comprehensive numerical analysis. The derived representations are computationally very efficient compared to numerical integrations, and, hence, are suitable for online planning, increasing the autonomy of walking robots. Two application examples of walking gait control are presented. The proposed solutions can serve as instrumental tools in various fields such as control in legged robotics and human motion understanding in biomechanics.

关键词

Inverted pendulumLossy compressionDouble pendulumControl theory (sociology)Lossless compressionComputer scienceSlip (aerodynamics)RobotRoboticsMechanical system

相关论文

查看 LOCOMOTION 分类全部论文