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Bioinspired Propulsion System for a Thunniform Robotic Fish.

Iliya MitinRoman KorotaevArtem ErmolaevVasily MironovSergey A LobovVictor B Kazantsev
Published in: Biomimetics (Basel, Switzerland) (2022)
The paper describes a bioinspired propulsion system for a robotic fish model. The system is based on a combination of an elastic chord with a tail fin fixed on it. The tail fin is connected to a servomotor by two symmetric movable thrusts simulating muscle contractions. The propulsion system provides the oscillatory tail movement with controllable amplitude and frequency. Tail oscillations translate into the movement of the robotic fish implementing the thunniform principle of locomotion. The shape of the body and the tail fin of the robotic fish were designed using a computational model simulating a virtual body in an aquatic medium. A prototype of a robotic fish was constructed and tested in experimental conditions. Dependencies of fish velocity on the dynamic characteristics of tail oscillations were analyzed. In particular, it was found that the robot's speed increased as the frequency of tail fin oscillations grew. We also found that for fixed frequencies, an increase in the oscillation amplitude lead to an increase in the swimming speed only up to a certain threshold. Further growth of the oscillation amplitude lead to a weak increase in speed at higher energy costs.
Keyphrases
  • minimally invasive
  • robot assisted
  • high frequency
  • working memory
  • risk assessment
  • skeletal muscle
  • quality improvement