Gecko adhesion based sea star crawler robot

Acharya, Sampada; Roberts, Peter; Rane, Tejas; Singhal, Raghav; Peng, Hong; Ranade, Vivek V.; Majidi, Carmel; Webster‐Wood, Victoria A.; Reeja‐Jayan, B.

doi:10.3389/frobt.2023.1209202

Front. Robot. AI

2023

DOI: 10.3389/frobt.2023.1209202

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Gecko adhesion based sea star crawler robot

Sampada Acharya

Peter Roberts

Tejas Rane

et al.

Abstract: Over the years, efforts in bioinspired soft robotics have led to mobile systems that emulate features of natural animal locomotion. This includes combining mechanisms from multiple organisms to further improve movement. In this work, we seek to improve locomotion in soft, amphibious robots by combining two independent mechanisms: sea star locomotion gait and gecko adhesion. Specifically, we present a sea star-inspired robot with a gecko-inspired adhesive surface that is able to crawl on a variety of surfaces. … Show more

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2024

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Cited by 3 publications

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Locomotion for Insect‐Scale Robots With Bionic Strategies: A Review

Zou,

Ma,

Chen

et al. 2024

Journal of Field Robotics

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Insect‐scale robots possess the advantageous traits of small size, lightweight, and high flexibility. These features make them suitable for complex, narrow, or higher‐than‐the‐ground environments, allowing these insect‐scale robots to become highly sought‐after research topics. However, the miniaturization of robots has brought challenges to improving their environmental adaptability, such as climbing and obstacle‐crossing abilities. Mainstream strategies inspired by natural creatures to address these challenges can be classified into two types: adhesion for climbing robots and multi‐motion modes for obstacle‐crossing robots. Adhesion is preferred for occasions requiring climbing slopes, walls, or ceilings. In contrast, multi‐motion modes are suitable for occasions with limited obstacle heights or complex terrains to enable miniaturization and cable‐free operation. This paper summarizes the current research on environment‐adaptable insect‐scale robots (EAISRs) with adhesion or multi‐motion modes. Then, the paper discusses the advantages, disadvantages, and application scenarios of EAISRs, including climbing robots with different adhesion strategies and obstacle‐crossing robots with various driving methods in detail. Finally, this paper proposes the future challenges and possible solutions for EAISRs, providing ideas for future interactions between insect‐scale robots and the environment.

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Locomotion for Insect‐Scale Robots With Bionic Strategies: A Review

Zou,

Ma,

Chen

et al. 2024

Journal of Field Robotics

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Softening implantable bioelectronics: Material designs, applications, and future directions

Oh,

Lee,

Kim

et al. 2024

Biosensors and Bioelectronics

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Review: Application of 3D Printing Technology in Soft Robots

Dong,

Weng,

Zheng

et al. 2024

3D Printing and Additive Manufacturing

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Gecko adhesion based sea star crawler robot

Cited by 3 publications

References 35 publications

Locomotion for Insect‐Scale Robots With Bionic Strategies: A Review

Locomotion for Insect‐Scale Robots With Bionic Strategies: A Review

Softening implantable bioelectronics: Material designs, applications, and future directions

Review: Application of 3D Printing Technology in Soft Robots

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