首页 /研究 /Elastic Compliance Versus Joint Actuation in an Articulated Swimming Robot
LOCOMOTION

Elastic Compliance Versus Joint Actuation in an Articulated Swimming Robot

Rodrigo Abrajan-Guerrero, Scott David Kelly

发表年份
2018
引用次数
4

摘要

A planar swimming device comprising three rigid links with one actuated joint and one elastically compliant joint can achieve bi-directional translation as well as rotation solely through sinusoidal deformations of the actuated joint. In the context of an idealized model in which the surrounding fluid is assumed to be inviscid, the system's locomotion may be understood in terms of geometric phases associated with limit cycles in joint-angle space. In comparison to a system with actuators at both joints executing the same swimming motion, a singly actuated compliant swimmer exhibits superior energy efficiency in laboratory experiments.

关键词

ActuatorInviscid flowJoint (building)Context (archaeology)Rotation (mathematics)PlanarControl theory (sociology)Translation (biology)RobotComputer science

相关论文

查看 LOCOMOTION 分类全部论文