Design of a Sensor–Actuator Integrated Flexible Pectoral Fin for Bioinspired Manta Robots

Minhui Zhang; Jiarun Hou; Kangkang Li; Lei Gong; Jiaxing Guo; Yonghui Cao; Guang Pan; Yong Cao

doi:10.3390/jmse14080693

Design of a Sensor–Actuator Integrated Flexible Pectoral Fin for Bioinspired Manta Robots

Minhui Zhang
, Jiarun Hou
, Kangkang Li
, Lei Gong
, Jiaxing Guo
, Yonghui Cao
, Guang Pan
, Yong Cao

School of Marine Science and Technology

Northwestern Polytechnical University Xian
Sichuan University

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

Abstract

To meet the practical application requirements of underwater biomimetic robots, this paper presents the design of a flexible pectoral fin with integrated sensing and actuation capabilities, based on a “material-structure-function” integrated approach. The sensor film is embedded into the pectoral fin via an embedded cast-molding method, ensuring synchronized deformation and long-term cyclic stability. Experimental results demonstrate that the integrated pectoral fin can accurately perceive its own bending deformation and external environmental disturbances, enabling corresponding obstacle avoidance maneuvers in a manta robot prototype. This design strategy endows the manta robot with environmental adaptability for real-world applications and offers a novel paradigm for the intelligent design of other underwater equipment.

Original language	English
Article number	693
Journal	Journal of Marine Science and Engineering
Volume	14
Issue number	8
DOIs	https://doi.org/10.3390/jmse14080693
State	Published - Apr 2026

Keywords

adaptive control
biomimetic pectoral fin
flexible sensor and actuation integration
underwater robot

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10.3390/jmse14080693

Cite this

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title = "Design of a Sensor–Actuator Integrated Flexible Pectoral Fin for Bioinspired Manta Robots",

abstract = "To meet the practical application requirements of underwater biomimetic robots, this paper presents the design of a flexible pectoral fin with integrated sensing and actuation capabilities, based on a “material-structure-function” integrated approach. The sensor film is embedded into the pectoral fin via an embedded cast-molding method, ensuring synchronized deformation and long-term cyclic stability. Experimental results demonstrate that the integrated pectoral fin can accurately perceive its own bending deformation and external environmental disturbances, enabling corresponding obstacle avoidance maneuvers in a manta robot prototype. This design strategy endows the manta robot with environmental adaptability for real-world applications and offers a novel paradigm for the intelligent design of other underwater equipment.",

keywords = "adaptive control, biomimetic pectoral fin, flexible sensor and actuation integration, underwater robot",

author = "Minhui Zhang and Jiarun Hou and Kangkang Li and Lei Gong and Jiaxing Guo and Yonghui Cao and Guang Pan and Yong Cao",

note = "Publisher Copyright: {\textcopyright} 2026 by the authors.",

year = "2026",

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doi = "10.3390/jmse14080693",

language = "英语",

volume = "14",

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TY - JOUR

T1 - Design of a Sensor–Actuator Integrated Flexible Pectoral Fin for Bioinspired Manta Robots

AU - Zhang, Minhui

AU - Hou, Jiarun

AU - Li, Kangkang

AU - Gong, Lei

AU - Guo, Jiaxing

AU - Cao, Yonghui

AU - Pan, Guang

AU - Cao, Yong

PY - 2026/4

Y1 - 2026/4

N2 - To meet the practical application requirements of underwater biomimetic robots, this paper presents the design of a flexible pectoral fin with integrated sensing and actuation capabilities, based on a “material-structure-function” integrated approach. The sensor film is embedded into the pectoral fin via an embedded cast-molding method, ensuring synchronized deformation and long-term cyclic stability. Experimental results demonstrate that the integrated pectoral fin can accurately perceive its own bending deformation and external environmental disturbances, enabling corresponding obstacle avoidance maneuvers in a manta robot prototype. This design strategy endows the manta robot with environmental adaptability for real-world applications and offers a novel paradigm for the intelligent design of other underwater equipment.

AB - To meet the practical application requirements of underwater biomimetic robots, this paper presents the design of a flexible pectoral fin with integrated sensing and actuation capabilities, based on a “material-structure-function” integrated approach. The sensor film is embedded into the pectoral fin via an embedded cast-molding method, ensuring synchronized deformation and long-term cyclic stability. Experimental results demonstrate that the integrated pectoral fin can accurately perceive its own bending deformation and external environmental disturbances, enabling corresponding obstacle avoidance maneuvers in a manta robot prototype. This design strategy endows the manta robot with environmental adaptability for real-world applications and offers a novel paradigm for the intelligent design of other underwater equipment.

KW - adaptive control

KW - biomimetic pectoral fin

KW - flexible sensor and actuation integration

KW - underwater robot

UR - https://www.scopus.com/pages/publications/105037218400

U2 - 10.3390/jmse14080693

DO - 10.3390/jmse14080693

M3 - 文章

AN - SCOPUS:105037218400

SN - 2077-1312

VL - 14

JO - Journal of Marine Science and Engineering

JF - Journal of Marine Science and Engineering

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M1 - 693

ER -

Design of a Sensor–Actuator Integrated Flexible Pectoral Fin for Bioinspired Manta Robots

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