The offset model of a hexapod robot and the effect of the offset parameter

Kazi Mostafa; Innchyn Her; Yi Hsien Wu

doi:10.4018/ijmmme.2012070104

The offset model of a hexapod robot and the effect of the offset parameter

Kazi Mostafa, Innchyn Her, Yi Hsien Wu

National Sun Yat-sen University

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

1 Citation (Scopus)

Abstract

Generally, it is claimed that hexapod walking robots are superior to others. However, in some conditions hexapod suffers from stability problems. To solve the problem of stability, this paper proposes a new gait model of hexapod robot named offset model and also investigates the effects of morphological factor of hexapod robots on their locomotion. A comparison between the offset model and general model of hexapod robot is also included. The stability margin and error margin are used to indicate the stability of a hexapod robot, as it walks with different gaits in arbitrary directions. Two hexapod gaits are compared, which are the diametrical gait and the paired metachronal gait. The former is an artificial gait and the latter is a natural gait. The authors conclude that that the stability of a hexapod robot with the diametrical gait can be enhanced by increasing the offset parameter.

Original language	English
Pages (from-to)	52-59
Number of pages	8
Journal	International Journal of Manufacturing, Materials, and Mechanical Engineering
Volume	2
Issue number	3
DOIs	https://doi.org/10.4018/ijmmme.2012070104
Publication status	Published - Jul 2012
Externally published	Yes

Keywords

Diametrical Gait
Error Margin
Hexapods
Offset Model
Paired Metachronal Gait
Stability Margin

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10.4018/ijmmme.2012070104

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title = "The offset model of a hexapod robot and the effect of the offset parameter",

abstract = "Generally, it is claimed that hexapod walking robots are superior to others. However, in some conditions hexapod suffers from stability problems. To solve the problem of stability, this paper proposes a new gait model of hexapod robot named offset model and also investigates the effects of morphological factor of hexapod robots on their locomotion. A comparison between the offset model and general model of hexapod robot is also included. The stability margin and error margin are used to indicate the stability of a hexapod robot, as it walks with different gaits in arbitrary directions. Two hexapod gaits are compared, which are the diametrical gait and the paired metachronal gait. The former is an artificial gait and the latter is a natural gait. The authors conclude that that the stability of a hexapod robot with the diametrical gait can be enhanced by increasing the offset parameter.",

keywords = "Diametrical Gait, Error Margin, Hexapods, Offset Model, Paired Metachronal Gait, Stability Margin",

author = "Kazi Mostafa and Innchyn Her and Wu, {Yi Hsien}",

note = "Funding Information: We thank Messrs L. W. Liu and D. W. Wu for creating the figures and Mr. D. Li for miscellaneous assistance. Financial support by the National Science Council of Taiwan under grant NSC 98-2221-E110-023 is also acknowledged. ",

year = "2012",

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AU - Mostafa, Kazi

AU - Her, Innchyn

AU - Wu, Yi Hsien

N1 - Funding Information: We thank Messrs L. W. Liu and D. W. Wu for creating the figures and Mr. D. Li for miscellaneous assistance. Financial support by the National Science Council of Taiwan under grant NSC 98-2221-E110-023 is also acknowledged.

PY - 2012/7

Y1 - 2012/7

N2 - Generally, it is claimed that hexapod walking robots are superior to others. However, in some conditions hexapod suffers from stability problems. To solve the problem of stability, this paper proposes a new gait model of hexapod robot named offset model and also investigates the effects of morphological factor of hexapod robots on their locomotion. A comparison between the offset model and general model of hexapod robot is also included. The stability margin and error margin are used to indicate the stability of a hexapod robot, as it walks with different gaits in arbitrary directions. Two hexapod gaits are compared, which are the diametrical gait and the paired metachronal gait. The former is an artificial gait and the latter is a natural gait. The authors conclude that that the stability of a hexapod robot with the diametrical gait can be enhanced by increasing the offset parameter.

AB - Generally, it is claimed that hexapod walking robots are superior to others. However, in some conditions hexapod suffers from stability problems. To solve the problem of stability, this paper proposes a new gait model of hexapod robot named offset model and also investigates the effects of morphological factor of hexapod robots on their locomotion. A comparison between the offset model and general model of hexapod robot is also included. The stability margin and error margin are used to indicate the stability of a hexapod robot, as it walks with different gaits in arbitrary directions. Two hexapod gaits are compared, which are the diametrical gait and the paired metachronal gait. The former is an artificial gait and the latter is a natural gait. The authors conclude that that the stability of a hexapod robot with the diametrical gait can be enhanced by increasing the offset parameter.

KW - Diametrical Gait

KW - Error Margin

KW - Hexapods

KW - Offset Model

KW - Paired Metachronal Gait

KW - Stability Margin

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M3 - Article

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JO - International Journal of Manufacturing, Materials, and Mechanical Engineering

JF - International Journal of Manufacturing, Materials, and Mechanical Engineering

IS - 3

ER -

The offset model of a hexapod robot and the effect of the offset parameter

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Keywords

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