Common formation mechanism of basin of attraction for bipedal walking models by saddle hyperbolicity and hybrid dynamics

Ippei Obayashi; Shinya Aoi; Kazuo Tsuchiya; Hiroshi Kokubu

doi:10.1007/s13160-015-0181-9

Common formation mechanism of basin of attraction for bipedal walking models by saddle hyperbolicity and hybrid dynamics

Ippei Obayashi, Shinya Aoi, Kazuo Tsuchiya, Hiroshi Kokubu

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

12 Citations (Scopus)

Abstract

In this paper, we investigate the mathematical structures and mechanisms of bipedal walking from a dynamical viewpoint. Especially, we focus on the basin of attraction since it determines the stability of bipedal walking. We treat two similar but different bipedal walking models (passive and active dynamic walking models) and examine common mathematical structure between these models. We find that the saddle hyperbolicity and hybrid system play important roles for the shape of the basin of attraction in both models, which are quite common for more general bipedal models and important for understanding the stability mechanism of bipedal walking.

Original language	English
Pages (from-to)	315-332
Number of pages	18
Journal	Japan Journal of Industrial and Applied Mathematics
Volume	32
Issue number	2
DOIs	https://doi.org/10.1007/s13160-015-0181-9
Publication status	Published - Jul 28 2015
Externally published	Yes

Keywords

Basin of attraction
Bipedal walking
Dynamical system
Hybrid system
Hyperbolicity

ASJC Scopus subject areas

Engineering(all)
Applied Mathematics

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10.1007/s13160-015-0181-9

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title = "Common formation mechanism of basin of attraction for bipedal walking models by saddle hyperbolicity and hybrid dynamics",

abstract = "In this paper, we investigate the mathematical structures and mechanisms of bipedal walking from a dynamical viewpoint. Especially, we focus on the basin of attraction since it determines the stability of bipedal walking. We treat two similar but different bipedal walking models (passive and active dynamic walking models) and examine common mathematical structure between these models. We find that the saddle hyperbolicity and hybrid system play important roles for the shape of the basin of attraction in both models, which are quite common for more general bipedal models and important for understanding the stability mechanism of bipedal walking.",

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T1 - Common formation mechanism of basin of attraction for bipedal walking models by saddle hyperbolicity and hybrid dynamics

AU - Obayashi, Ippei

AU - Aoi, Shinya

AU - Tsuchiya, Kazuo

AU - Kokubu, Hiroshi

PY - 2015/7/28

Y1 - 2015/7/28

N2 - In this paper, we investigate the mathematical structures and mechanisms of bipedal walking from a dynamical viewpoint. Especially, we focus on the basin of attraction since it determines the stability of bipedal walking. We treat two similar but different bipedal walking models (passive and active dynamic walking models) and examine common mathematical structure between these models. We find that the saddle hyperbolicity and hybrid system play important roles for the shape of the basin of attraction in both models, which are quite common for more general bipedal models and important for understanding the stability mechanism of bipedal walking.

AB - In this paper, we investigate the mathematical structures and mechanisms of bipedal walking from a dynamical viewpoint. Especially, we focus on the basin of attraction since it determines the stability of bipedal walking. We treat two similar but different bipedal walking models (passive and active dynamic walking models) and examine common mathematical structure between these models. We find that the saddle hyperbolicity and hybrid system play important roles for the shape of the basin of attraction in both models, which are quite common for more general bipedal models and important for understanding the stability mechanism of bipedal walking.

KW - Basin of attraction

KW - Bipedal walking

KW - Dynamical system

KW - Hybrid system

KW - Hyperbolicity

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Common formation mechanism of basin of attraction for bipedal walking models by saddle hyperbolicity and hybrid dynamics

Abstract

Keywords

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