An underwater dual-mode robot with simultaneous swimming and crawling functions: Design and experiment

In this paper, the development of a novel navigation crawl double-state vehicle (NCDSV) with both swimming and crawling functions is described. First, for the characteristics of the NCDSV, an integrated control framework for swimming and crawling based on the central pattern generator (CPG) is propo...

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Published inOcean engineering Vol. 309; p. 118349
Main Authors Gong, Qingshuo, Zhang, Wei, Zhang, Honghan, Yang, Haoyu, Sun, Ruichi
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2024
Subjects
Crawling mode
Swimming mode
Switching control
Underwater robot
Swimming mode
Crawling mode
Switching control
Underwater robot
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Abstract In this paper, the development of a novel navigation crawl double-state vehicle (NCDSV) with both swimming and crawling functions is described. First, for the characteristics of the NCDSV, an integrated control framework for swimming and crawling based on the central pattern generator (CPG) is proposed for generating control signals for the multimodal motion of the NCDSV. Then, in swimming mode, the NCDSV combines a water tank and pectoral fins to realize rapid dive and depth control, which increases the dive speed by more than four times compared with the use of pectoral fins alone. In addition, a mode switching mechanism was designed, and a soft switching strategy based on a logistic function was proposed to realize the free switching of motion modes. Finally, the forward speed, heading control, depth control, and motion mode switching control of the NCDSV were experimentally tested in a pool. The effectiveness of the proposed method was evaluated. •A CPG-based integrated control framework for swimming and crawling is proposed.•In swimming mode, the NCDSV uses a water tank plus pectoral fins in conjunction to achieve rapid dive and depth control.•A soft switching strategy based on the logistic function is proposed, which can realize smooth mode switching of the NCDSV.
AbstractList In this paper, the development of a novel navigation crawl double-state vehicle (NCDSV) with both swimming and crawling functions is described. First, for the characteristics of the NCDSV, an integrated control framework for swimming and crawling based on the central pattern generator (CPG) is proposed for generating control signals for the multimodal motion of the NCDSV. Then, in swimming mode, the NCDSV combines a water tank and pectoral fins to realize rapid dive and depth control, which increases the dive speed by more than four times compared with the use of pectoral fins alone. In addition, a mode switching mechanism was designed, and a soft switching strategy based on a logistic function was proposed to realize the free switching of motion modes. Finally, the forward speed, heading control, depth control, and motion mode switching control of the NCDSV were experimentally tested in a pool. The effectiveness of the proposed method was evaluated. •A CPG-based integrated control framework for swimming and crawling is proposed.•In swimming mode, the NCDSV uses a water tank plus pectoral fins in conjunction to achieve rapid dive and depth control.•A soft switching strategy based on the logistic function is proposed, which can realize smooth mode switching of the NCDSV.
ArticleNumber 118349
Author Gong, Qingshuo
Zhang, Honghan
Yang, Haoyu
Zhang, Wei
Sun, Ruichi
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Keywords Swimming mode
Crawling mode
Switching control
Underwater robot
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Snippet In this paper, the development of a novel navigation crawl double-state vehicle (NCDSV) with both swimming and crawling functions is described. First, for the...
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StartPage 118349
SubjectTerms Crawling mode
Swimming mode
Switching control
Underwater robot
Title An underwater dual-mode robot with simultaneous swimming and crawling functions: Design and experiment
URI https://dx.doi.org/10.1016/j.oceaneng.2024.118349
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