Stable Walking Dynamics In A Semi-Passive Biped

Semi-passive biped robots have been proposed to achieve efficient and robust bipedal locomotion, based on their natural dynamics. In this work, a compass biped with arc shape feet, actuated by a rocker mechanism on the hip is presented and studied. Initially, the effects of the variation of the exci...

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Bibliographic Details
Main Author: Rodriguez Herrera, Carlos F. (author)
Other Authors: Martinez Franco, Juan Camilo (author), Murillo Herrera, Sebastian (author)
Format: article
Language:Spanish
Published: 2018
Online Access:http://revistas.utp.ac.pa/index.php/memoutp/article/view/1891
http://ridda2.utp.ac.pa/handle/123456789/5767
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Summary:Semi-passive biped robots have been proposed to achieve efficient and robust bipedal locomotion, based on their natural dynamics. In this work, a compass biped with arc shape feet, actuated by a rocker mechanism on the hip is presented and studied. Initially, the effects of the variation of the excitation frequency and amplitude on the stability of the walking cycle are determined. Both, simulation results and experimental tests, suggest that, for a given range of excitation frequencies, the robot exhibits attractive equilibrium as well as entrainment. In addition, strategies for startup, turning and stopping were explored, obtaining promising results. This work supports the possibility of developing controllable, energy efficient, semi-passive, low cost bipeds.