A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM

Po Yu Hsieh; June Hao Hou

A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM

Po Yu Hsieh, June Hao Hou

Institute of Architecture

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

Biomimicry has played a pivotal role in robotics. In contrast to rigid robots, bio-inspired robots exhibit an inherent compliance, facilitating versatile movements and operations in constrained spaces. The robot implementation in fabrication, however, has posed technical challenges and mechanical complexity, thereby underscoring a noticeable gap between research and practice. To address the limitation, the research draws inspiration from the unique musculoskeletal feature of vertebrate physiology, which displays significant capabilities for sophisticated locomotion. The research converts the biological paradigm into a tensegrity-based robotic system, which is formed by the design of rigid-flex coupling and a compliant mechanism. This integrated technique enables the robot to achieve a wide range of motions with variable stiffness and adaptability, holding great potential for advanced performance in ill-defined environments. In summation, the research aims to provide a robust foundation for tensegrity-based biomimetic robots in practice, enhancing the feasibility of undertaking intricate robotic constructions.

Original language	English
Title of host publication	Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024
Editors	Nicole Gardner, Christiane M. Herr, Likai Wang, Hirano Toshiki, Sumbul Ahmad Khan
Publisher	The Association for Computer-Aided Architectural Design Research in Asia
Pages	131-140
Number of pages	10
ISBN (Print)	9789887891833
State	Published - 2024
Event	29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024 - Singapore, Singapore Duration: 20 Apr 2024 → 26 Apr 2024

Publication series

Name	Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia
Volume	3
ISSN (Print)	2710-4257
ISSN (Electronic)	2710-4265

Conference

Conference	29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024
Country/Territory	Singapore
City	Singapore
Period	20/04/24 → 26/04/24

Keywords

Adaptive Robot
Biomimetic
Compliant Mechanism
Rigid-Flex Coupling
Tensegrity

Cite this

Hsieh, P. Y., & Hou, J. H. (2024). A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM. In N. Gardner, C. M. Herr, L. Wang, H. Toshiki, & S. A. Khan (Eds.), Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024 (pp. 131-140). (Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia; Vol. 3). The Association for Computer-Aided Architectural Design Research in Asia.

Hsieh, Po Yu ; Hou, June Hao. / A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM. Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024. editor / Nicole Gardner ; Christiane M. Herr ; Likai Wang ; Hirano Toshiki ; Sumbul Ahmad Khan. The Association for Computer-Aided Architectural Design Research in Asia, 2024. pp. 131-140 (Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia).

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title = "A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM",

abstract = "Biomimicry has played a pivotal role in robotics. In contrast to rigid robots, bio-inspired robots exhibit an inherent compliance, facilitating versatile movements and operations in constrained spaces. The robot implementation in fabrication, however, has posed technical challenges and mechanical complexity, thereby underscoring a noticeable gap between research and practice. To address the limitation, the research draws inspiration from the unique musculoskeletal feature of vertebrate physiology, which displays significant capabilities for sophisticated locomotion. The research converts the biological paradigm into a tensegrity-based robotic system, which is formed by the design of rigid-flex coupling and a compliant mechanism. This integrated technique enables the robot to achieve a wide range of motions with variable stiffness and adaptability, holding great potential for advanced performance in ill-defined environments. In summation, the research aims to provide a robust foundation for tensegrity-based biomimetic robots in practice, enhancing the feasibility of undertaking intricate robotic constructions.",

keywords = "Adaptive Robot, Biomimetic, Compliant Mechanism, Rigid-Flex Coupling, Tensegrity",

author = "Hsieh, {Po Yu} and Hou, {June Hao}",

note = "Publisher Copyright: {\textcopyright} 2024 and published by the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA), Hong Kong.; 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024 ; Conference date: 20-04-2024 Through 26-04-2024",

year = "2024",

language = "English",

isbn = "9789887891833",

series = "Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia",

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pages = "131--140",

editor = "Nicole Gardner and Herr, {Christiane M.} and Likai Wang and Hirano Toshiki and Khan, {Sumbul Ahmad}",

booktitle = "Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024",

address = "香港",

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Hsieh, PY & Hou, JH 2024, A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM. in N Gardner, CM Herr, L Wang, H Toshiki & SA Khan (eds), Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024. Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia, vol. 3, The Association for Computer-Aided Architectural Design Research in Asia, pp. 131-140, 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024, Singapore, Singapore, 20/04/24.

A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM. / Hsieh, Po Yu; Hou, June Hao.
Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024. ed. / Nicole Gardner; Christiane M. Herr; Likai Wang; Hirano Toshiki; Sumbul Ahmad Khan. The Association for Computer-Aided Architectural Design Research in Asia, 2024. p. 131-140 (Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia; Vol. 3).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM

AU - Hsieh, Po Yu

AU - Hou, June Hao

PY - 2024

Y1 - 2024

N2 - Biomimicry has played a pivotal role in robotics. In contrast to rigid robots, bio-inspired robots exhibit an inherent compliance, facilitating versatile movements and operations in constrained spaces. The robot implementation in fabrication, however, has posed technical challenges and mechanical complexity, thereby underscoring a noticeable gap between research and practice. To address the limitation, the research draws inspiration from the unique musculoskeletal feature of vertebrate physiology, which displays significant capabilities for sophisticated locomotion. The research converts the biological paradigm into a tensegrity-based robotic system, which is formed by the design of rigid-flex coupling and a compliant mechanism. This integrated technique enables the robot to achieve a wide range of motions with variable stiffness and adaptability, holding great potential for advanced performance in ill-defined environments. In summation, the research aims to provide a robust foundation for tensegrity-based biomimetic robots in practice, enhancing the feasibility of undertaking intricate robotic constructions.

AB - Biomimicry has played a pivotal role in robotics. In contrast to rigid robots, bio-inspired robots exhibit an inherent compliance, facilitating versatile movements and operations in constrained spaces. The robot implementation in fabrication, however, has posed technical challenges and mechanical complexity, thereby underscoring a noticeable gap between research and practice. To address the limitation, the research draws inspiration from the unique musculoskeletal feature of vertebrate physiology, which displays significant capabilities for sophisticated locomotion. The research converts the biological paradigm into a tensegrity-based robotic system, which is formed by the design of rigid-flex coupling and a compliant mechanism. This integrated technique enables the robot to achieve a wide range of motions with variable stiffness and adaptability, holding great potential for advanced performance in ill-defined environments. In summation, the research aims to provide a robust foundation for tensegrity-based biomimetic robots in practice, enhancing the feasibility of undertaking intricate robotic constructions.

KW - Adaptive Robot

KW - Biomimetic

KW - Compliant Mechanism

KW - Rigid-Flex Coupling

KW - Tensegrity

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T3 - Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia

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BT - Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024

A2 - Gardner, Nicole

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A2 - Wang, Likai

A2 - Toshiki, Hirano

A2 - Khan, Sumbul Ahmad

PB - The Association for Computer-Aided Architectural Design Research in Asia

T2 - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024

Y2 - 20 April 2024 through 26 April 2024

ER -

Hsieh PY, Hou JH. A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM. In Gardner N, Herr CM, Wang L, Toshiki H, Khan SA, editors, Accelerated Design - 29th International Conference on Computer-Aided Architectural Design Research in Asia, CAADRIA 2024. The Association for Computer-Aided Architectural Design Research in Asia. 2024. p. 131-140. (Proceedings of the International Conference on Computer-Aided Architectural Design Research in Asia).

A BIOMIMETIC ROBOTIC SYSTEM WITH TENSEGRITY-BASED COMPLIANT MECHANISM

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