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Study on the Design and Experimental Research on a Bionic Crab Robot with Amphibious Multi-Modal Movement

Xi Chen, Jiawei Li, Shihao Hu, Songjie Han, Kaixin Liu, Biye Pan, Jixin Wang, Gang Wang, Xinmeng Ma

2022Journal of Marine Science and Engineering21 citationsDOIOpen Access PDF

Abstract

Bionic amphibious robots are the intersection of biology and robotics; they have the advantages of environmental adaptability and maneuverability. An amphibious robot that combines walking and swimming move modes inspired by a crab (Portunus) is presented in this article. The outstanding characteristic of the robot is that its environmental adaptability relies on the bionic multi-modal movement, which is based on two modular bionic swimming legs and six modular walking legs. We designed the biomimetic crab robot based on the biological observation results. The design, analysis, and simulation of its structure and motion parameters are introduced in this paper. The swimming propulsion capability and the walking performance are verified through indoor, pool, and seaside experiments. In conclusion, the designed bionic crab robot provides a platform with practical application capabilities in amphibious environment detection, concealed reconnaissance, and aquaculture.

Topics & Concepts

Modular designAdaptabilityRobotEngineeringModalIntersection (aeronautics)BionicsMarine engineeringArtificial intelligenceSimulationComputer scienceControl engineeringAerospace engineeringEcologyBiologyPolymer chemistryChemistryOperating systemBiomimetic flight and propulsion mechanismsRobotic Locomotion and ControlUnderwater Vehicles and Communication Systems
Study on the Design and Experimental Research on a Bionic Crab Robot with Amphibious Multi-Modal Movement | Litcius