Gait selection and transition of passivity-based bipeds with adaptable ankle stiffness

Yan Huang; Qining Wang

doi:10.5772/51533

Gait selection and transition of passivity-based bipeds with adaptable ankle stiffness

Yan Huang, Qining Wang^*

^*Corresponding author for this work

Peking University

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Stable bipedal walking is one of the most important components of humanoid robot design, which can help us better understand natural human walking. In this paper, to study gait selection and gait transition of efficient bipedal walking, we proposed a dynamic bipedal walking model with an upper body, flat feet and compliant joints. The model can achieve stable cyclic motion with different walking gaits. The hip actuation and ankle stiffness behavior of the model are quite similar to those of human normal walking. In simulation, we studied the influence of hip actuation and ankle stiffness on walking performance of each gait. The effects of ankle stiffness on gait selection are also analyzed. Gait transition is realized by adjusting ankle stiffness during walking.

Original language	English
Article number	97
Journal	International Journal of Advanced Robotic Systems
Volume	9
DOIs	https://doi.org/10.5772/51533
Publication status	Published - 1 Oct 2012
Externally published	Yes

Keywords

Gait selection
Gait transition
Humanoid robots
Joint stiffness
Passive dynamic walking

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abstract = "Stable bipedal walking is one of the most important components of humanoid robot design, which can help us better understand natural human walking. In this paper, to study gait selection and gait transition of efficient bipedal walking, we proposed a dynamic bipedal walking model with an upper body, flat feet and compliant joints. The model can achieve stable cyclic motion with different walking gaits. The hip actuation and ankle stiffness behavior of the model are quite similar to those of human normal walking. In simulation, we studied the influence of hip actuation and ankle stiffness on walking performance of each gait. The effects of ankle stiffness on gait selection are also analyzed. Gait transition is realized by adjusting ankle stiffness during walking.",

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AB - Stable bipedal walking is one of the most important components of humanoid robot design, which can help us better understand natural human walking. In this paper, to study gait selection and gait transition of efficient bipedal walking, we proposed a dynamic bipedal walking model with an upper body, flat feet and compliant joints. The model can achieve stable cyclic motion with different walking gaits. The hip actuation and ankle stiffness behavior of the model are quite similar to those of human normal walking. In simulation, we studied the influence of hip actuation and ankle stiffness on walking performance of each gait. The effects of ankle stiffness on gait selection are also analyzed. Gait transition is realized by adjusting ankle stiffness during walking.

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Gait selection and transition of passivity-based bipeds with adaptable ankle stiffness

Abstract

Keywords

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