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A motion control approach for a robotic fish with iterative feedback tuning

Qinyuan Ren, Jian‐Xin Xu, Xuefang Li

Year
2015
Citations
6

Abstract

This paper proposes a model-free motion control approach for a robotic fish. The fish-like swimming gaits first are generated by a general internal model (GIM)-based learning approach for the robot. Then, a feedforward controller and a proportional-integral-derivative (PID)-based feedback controller are scheduled to control the swimming gaits of the robot to achieve desired motion. To improve the performance of the feedback controller and avoid tedious manual tuning, a pure data-driven iterative feedback (IFT) method is adopted for tuning the parameters of the feedback controller. Finally, experiment results verify the effectiveness of the motion control approach.

Keywords

Feed forwardControl theory (sociology)PID controllerComputer scienceController (irrigation)Motion controlIterative learning controlFeedback controllerRobotMotion (physics)

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