Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation

Minghao Liu; Loong Yi Lee; Andrew T Conn; Jonathan M Rossiter

doi:10.1109/RoboSoft60065.2024.10521919

Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation

Minghao Liu, Loong Yi Lee, Andrew T Conn, Jonathan M Rossiter^*

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

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Abstract

In-pipe locomotion is a great proving ground for the environmental flexibilities of soft robots. The 2023 Robosoft conference locomotion competition captured many of these chal-lenges and opportunities as a series of in-pipe obstacles for soft robots to navigate. Locomotion through pipes of different sizes, and surfaces, and navigating T-junctions was demonstrated. This paper presents the design of the competition-winning robot, using inchworm-inspired bellows actuated locomotion to move forward via anisotropic friction from the robot body design. The robot can traverse pipe diameters of 5cm to 10cm and can navigate T-junctions via a compliant guide rod that can be rotated to choose heading direction and cross over gaps in the pipeline. This paper also shows further development of the competition robot to generalise for more pipe designs by having the setae be a compliant four-bar linkage mechanism. The final design of the robot only requires one onboard motor to rotate the semi-passive guide rod for navigation and one pneumatic line for the bellows actuator, with the compliant seta design taking up minimal volume in the pipe compared to other wall-mounting inchworm solutions.

Original language	English
Title of host publication	2024 IEEE 7th International Conference on Soft Robotics (RoboSoft)
Place of Publication	San Diego, CA, USA
Publisher	Institute of Electrical and Electronics Engineers (IEEE)
Pages	919-924
Number of pages	6
ISBN (Electronic)	979-8-3503-8181-8
DOIs	https://doi.org/10.1109/RoboSoft60065.2024.10521919
Publication status	Published - 13 May 2024
Event	Robosoft 2024: 7th IEEE-RAS International Conference on Soft Robotics - Hard Rock Hotel, San Diego, United States Duration: 14 Apr 2024 → 17 Apr 2024

Publication series

Name	IEEE International Conference on Soft Robotics
Publisher	IEEE
ISSN (Print)	2769-4526
ISSN (Electronic)	2769-4534

Conference

Conference	Robosoft 2024
Abbreviated title	ROBOSOFT 2024
Country/Territory	United States
City	San Diego
Period	14/04/24 → 17/04/24

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

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10.1109/RoboSoft60065.2024.10521919

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This is the accepted author manuscript (AAM) of the article which has been made Open Access under the University of Bristol's Scholarly Works Policy. The final published version (Version of Record) can be found on the publisher's website. The copyright of any third-party content, such as images, remains with the copyright holder.
Accepted author manuscript, 954 KBLicence: CC BY

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Liu, M., Lee, L. Y., Conn, A. T., & Rossiter, J. M. (2024). Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation. In 2024 IEEE 7th International Conference on Soft Robotics (RoboSoft) (pp. 919-924). (IEEE International Conference on Soft Robotics). Institute of Electrical and Electronics Engineers (IEEE). https://doi.org/10.1109/RoboSoft60065.2024.10521919

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title = "Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation",

abstract = "In-pipe locomotion is a great proving ground for the environmental flexibilities of soft robots. The 2023 Robosoft conference locomotion competition captured many of these chal-lenges and opportunities as a series of in-pipe obstacles for soft robots to navigate. Locomotion through pipes of different sizes, and surfaces, and navigating T-junctions was demonstrated. This paper presents the design of the competition-winning robot, using inchworm-inspired bellows actuated locomotion to move forward via anisotropic friction from the robot body design. The robot can traverse pipe diameters of 5cm to 10cm and can navigate T-junctions via a compliant guide rod that can be rotated to choose heading direction and cross over gaps in the pipeline. This paper also shows further development of the competition robot to generalise for more pipe designs by having the setae be a compliant four-bar linkage mechanism. The final design of the robot only requires one onboard motor to rotate the semi-passive guide rod for navigation and one pneumatic line for the bellows actuator, with the compliant seta design taking up minimal volume in the pipe compared to other wall-mounting inchworm solutions.",

author = "Minghao Liu and Lee, {Loong Yi} and Conn, {Andrew T} and Rossiter, {Jonathan M}",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; Robosoft 2024 : 7th IEEE-RAS International Conference on Soft Robotics, ROBOSOFT 2024 ; Conference date: 14-04-2024 Through 17-04-2024",

year = "2024",

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language = "English",

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Liu, M, Lee, LY, Conn, AT & Rossiter, JM 2024, Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation. in 2024 IEEE 7th International Conference on Soft Robotics (RoboSoft). IEEE International Conference on Soft Robotics, Institute of Electrical and Electronics Engineers (IEEE), San Diego, CA, USA, pp. 919-924, Robosoft 2024, San Diego, California, United States, 14/04/24. https://doi.org/10.1109/RoboSoft60065.2024.10521919

Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation. / Liu, Minghao; Lee, Loong Yi; Conn, Andrew T et al.
2024 IEEE 7th International Conference on Soft Robotics (RoboSoft). San Diego, CA, USA: Institute of Electrical and Electronics Engineers (IEEE), 2024. p. 919-924 (IEEE International Conference on Soft Robotics).

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

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T1 - Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation

AU - Liu, Minghao

AU - Lee, Loong Yi

AU - Conn, Andrew T

AU - Rossiter, Jonathan M

PY - 2024/5/13

Y1 - 2024/5/13

N2 - In-pipe locomotion is a great proving ground for the environmental flexibilities of soft robots. The 2023 Robosoft conference locomotion competition captured many of these chal-lenges and opportunities as a series of in-pipe obstacles for soft robots to navigate. Locomotion through pipes of different sizes, and surfaces, and navigating T-junctions was demonstrated. This paper presents the design of the competition-winning robot, using inchworm-inspired bellows actuated locomotion to move forward via anisotropic friction from the robot body design. The robot can traverse pipe diameters of 5cm to 10cm and can navigate T-junctions via a compliant guide rod that can be rotated to choose heading direction and cross over gaps in the pipeline. This paper also shows further development of the competition robot to generalise for more pipe designs by having the setae be a compliant four-bar linkage mechanism. The final design of the robot only requires one onboard motor to rotate the semi-passive guide rod for navigation and one pneumatic line for the bellows actuator, with the compliant seta design taking up minimal volume in the pipe compared to other wall-mounting inchworm solutions.

AB - In-pipe locomotion is a great proving ground for the environmental flexibilities of soft robots. The 2023 Robosoft conference locomotion competition captured many of these chal-lenges and opportunities as a series of in-pipe obstacles for soft robots to navigate. Locomotion through pipes of different sizes, and surfaces, and navigating T-junctions was demonstrated. This paper presents the design of the competition-winning robot, using inchworm-inspired bellows actuated locomotion to move forward via anisotropic friction from the robot body design. The robot can traverse pipe diameters of 5cm to 10cm and can navigate T-junctions via a compliant guide rod that can be rotated to choose heading direction and cross over gaps in the pipeline. This paper also shows further development of the competition robot to generalise for more pipe designs by having the setae be a compliant four-bar linkage mechanism. The final design of the robot only requires one onboard motor to rotate the semi-passive guide rod for navigation and one pneumatic line for the bellows actuator, with the compliant seta design taking up minimal volume in the pipe compared to other wall-mounting inchworm solutions.

U2 - 10.1109/RoboSoft60065.2024.10521919

DO - 10.1109/RoboSoft60065.2024.10521919

M3 - Conference Contribution (Conference Proceeding)

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BT - 2024 IEEE 7th International Conference on Soft Robotics (RoboSoft)

PB - Institute of Electrical and Electronics Engineers (IEEE)

CY - San Diego, CA, USA

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Y2 - 14 April 2024 through 17 April 2024

ER -

Liu M, Lee LY, Conn AT , Rossiter JM. Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation. In 2024 IEEE 7th International Conference on Soft Robotics (RoboSoft). San Diego, CA, USA: Institute of Electrical and Electronics Engineers (IEEE). 2024. p. 919-924. (IEEE International Conference on Soft Robotics). doi: 10.1109/RoboSoft60065.2024.10521919

Directing Anisotropic Friction and Compliant Structures Towards In-pipe Locomotion & Navigation

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