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Analytically-Guided Design of a Tailed Bipedal Hopping Robot

Abdulaziz Shamsah, Avik De, Daniel E. Koditschek

Year
2018
Citations
5

Abstract

We present the first fully spatial hopping gait of a 12 DoF tailed biped driven by only 4 actuators. The control of this physical machine is built up from parallel compositions of controllers for progressively higher DoF extensions of a simple 2 DoF, 1 actuator template. These template dynamics are still not themselves integrable, but a new hybrid averaging analysis yields a conjectured closed form representation of the approximate hopping limit cycle as a function of its physical and control parameters. The resulting insight into the role of the machines kinematic and dynamical design choices affords a redesign leading to the newly achieved behavior.

Keywords

ActuatorKinematicsControl theory (sociology)Representation (politics)Integrable systemRobotLimit cycleComputer scienceRobot kinematicsFunction (biology)

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