Octopus-inspired eight-arm robotic swimming by sculling movements
Robotics and Automation(2013)
摘要
Inspired by the octopus arm morphology and exploiting recordings of swimming octopus, we investigate the propulsive capabilities of an 8-arm robotic system under various swimming gaits, including arm sculling and arm undulations, for the generation of forward propulsion. A dynamical model of the robotic system, that considers fluid drag contributions accurately evaluated by CFD methods, was used to study the effects of various kinematic parameters on propulsion. Experiments inside a water tank with an 8-arm robotic prototype successfully demonstrated the sculling-only gaits, attaining a maximum speed of approximately 0.2 body lengths per second. Similar trends were observed, as in the simulation studies, with respect to the effect of the kinematic parameters on propulsion.
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关键词
computational fluid dynamics,drag,hydrodynamics,manipulator dynamics,manipulator kinematics,marine propulsion,tanks (containers),CFD methods,arm sculling,arm undulations,dynamical model,fluid drag contributions,forward propulsion generation,kinematic parameters,octopus arm morphology,octopus-inspired eight-arm robotic swimming,propulsive capabilities,sculling movements,sculling-only gaits,swimming gaits,swimming octopus recording,water tank,Biologically-Inspired Robots,Hydrodynamics,Octopus,Underwater Propulsion
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