Hybrid Locomotion of Leg-Wheel ASTERISK H

Takenobu Yoshioka; Tomohito Takubo; Tatsuo Arai; Kenji Inoue

doi:10.20965/jrm.2008.p0403

Hybrid Locomotion of Leg-Wheel ASTERISK H

Takenobu Yoshioka
, Tomohito Takubo
, Tatsuo Arai
, Kenji Inoue

The University of Osaka
Yamagata University

科研成果: 期刊稿件 › 文章 › 同行评审

37 引用（Scopus）

摘要

Leg-wheel hybrid locomotion on rough terrain we propose for a hexapod robot is realized by continuous transition between wheeled and legged locomotion based on sensor feedback. In basic positioning on a flat surface, the robot is supported by three legs and moves using its wheels. Upon sensing an obstacle, the robot’s support and swing legs change to a tripod gait with an oval orbit to cross over the obstacle. The maximum obstacle height depends on the robot’s height and the positioning of the foreleg. We analyzed optimal positioning implemented in the hybrid robot ASTERISK H, as confirmed by experimental results.

源语言	英语
页（从-至）	403-412
页数	10
期刊	Journal of Robotics and Mechatronics
卷	20
期	3
DOI	https://doi.org/10.20965/jrm.2008.p0403
出版状态	已出版 - 2008
已对外发布	是

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abstract = "Leg-wheel hybrid locomotion on rough terrain we propose for a hexapod robot is realized by continuous transition between wheeled and legged locomotion based on sensor feedback. In basic positioning on a flat surface, the robot is supported by three legs and moves using its wheels. Upon sensing an obstacle, the robot{\textquoteright}s support and swing legs change to a tripod gait with an oval orbit to cross over the obstacle. The maximum obstacle height depends on the robot{\textquoteright}s height and the positioning of the foreleg. We analyzed optimal positioning implemented in the hybrid robot ASTERISK H, as confirmed by experimental results.",

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AU - Yoshioka, Takenobu

AU - Takubo, Tomohito

AU - Arai, Tatsuo

AU - Inoue, Kenji

PY - 2008

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N2 - Leg-wheel hybrid locomotion on rough terrain we propose for a hexapod robot is realized by continuous transition between wheeled and legged locomotion based on sensor feedback. In basic positioning on a flat surface, the robot is supported by three legs and moves using its wheels. Upon sensing an obstacle, the robot’s support and swing legs change to a tripod gait with an oval orbit to cross over the obstacle. The maximum obstacle height depends on the robot’s height and the positioning of the foreleg. We analyzed optimal positioning implemented in the hybrid robot ASTERISK H, as confirmed by experimental results.

AB - Leg-wheel hybrid locomotion on rough terrain we propose for a hexapod robot is realized by continuous transition between wheeled and legged locomotion based on sensor feedback. In basic positioning on a flat surface, the robot is supported by three legs and moves using its wheels. Upon sensing an obstacle, the robot’s support and swing legs change to a tripod gait with an oval orbit to cross over the obstacle. The maximum obstacle height depends on the robot’s height and the positioning of the foreleg. We analyzed optimal positioning implemented in the hybrid robot ASTERISK H, as confirmed by experimental results.

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KW - rough terrain

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Hybrid Locomotion of Leg-Wheel ASTERISK H

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