Realization of Crowded Pipes Climbing Locomotion of Snake Robot Using Hybrid Force–Position Control Method

Yongdong Wang; Tetsushi Kamegawa

doi:10.3390/s22229016

Realization of Crowded Pipes Climbing Locomotion of Snake Robot Using Hybrid Force–Position Control Method

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

Abstract

The movement capabilities of snake robots allow them to be applied in a variety of applications. We realized a snake robot climbing in crowded pipes. In this paper, we implement a sinusoidal curve control method that allows the snake robot to move faster. The control method is composed of a hybrid force–position controller that allows the snake robot to move more stably. We conducted experiments to confirm the effectiveness of the proposed method. The experimental results show that the proposed method is stable and effective compared to the previous control method that we had implemented in the snake robot.

Original language	English
Article number	9016
Journal	Sensors
Volume	22
Issue number	22
DOIs	https://doi.org/10.3390/s22229016
Publication status	Published - Nov 2022

Keywords

crowded pipes
hybrid force–position control
sinusoidal curve
snake robot

ASJC Scopus subject areas

Analytical Chemistry
Information Systems
Biochemistry
Atomic and Molecular Physics, and Optics
Instrumentation
Electrical and Electronic Engineering

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10.3390/s22229016

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title = "Realization of Crowded Pipes Climbing Locomotion of Snake Robot Using Hybrid Force–Position Control Method",

abstract = "The movement capabilities of snake robots allow them to be applied in a variety of applications. We realized a snake robot climbing in crowded pipes. In this paper, we implement a sinusoidal curve control method that allows the snake robot to move faster. The control method is composed of a hybrid force–position controller that allows the snake robot to move more stably. We conducted experiments to confirm the effectiveness of the proposed method. The experimental results show that the proposed method is stable and effective compared to the previous control method that we had implemented in the snake robot.",

keywords = "crowded pipes, hybrid force–position control, sinusoidal curve, snake robot",

author = "Yongdong Wang and Tetsushi Kamegawa",

note = "Funding Information: This work was supported by the JSPS Research Grant 20K04380. Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = nov,

doi = "10.3390/s22229016",

language = "English",

volume = "22",

journal = "Sensors",

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T1 - Realization of Crowded Pipes Climbing Locomotion of Snake Robot Using Hybrid Force–Position Control Method

AU - Wang, Yongdong

AU - Kamegawa, Tetsushi

PY - 2022/11

Y1 - 2022/11

N2 - The movement capabilities of snake robots allow them to be applied in a variety of applications. We realized a snake robot climbing in crowded pipes. In this paper, we implement a sinusoidal curve control method that allows the snake robot to move faster. The control method is composed of a hybrid force–position controller that allows the snake robot to move more stably. We conducted experiments to confirm the effectiveness of the proposed method. The experimental results show that the proposed method is stable and effective compared to the previous control method that we had implemented in the snake robot.

AB - The movement capabilities of snake robots allow them to be applied in a variety of applications. We realized a snake robot climbing in crowded pipes. In this paper, we implement a sinusoidal curve control method that allows the snake robot to move faster. The control method is composed of a hybrid force–position controller that allows the snake robot to move more stably. We conducted experiments to confirm the effectiveness of the proposed method. The experimental results show that the proposed method is stable and effective compared to the previous control method that we had implemented in the snake robot.

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KW - snake robot

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Realization of Crowded Pipes Climbing Locomotion of Snake Robot Using Hybrid Force–Position Control Method

Abstract

Keywords

ASJC Scopus subject areas

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