Learning Control for Biomimetic Undulating Fins:An Experimental Study
Learning control should focus on imitating natural fishs adaptability to complex and dynamic environment to some extent, rather than mimicking streamlined shapes or specific actuators to develop more mechanical prototypes. In this paper, an experimental study on a proposed learning control of the robotic undulating fin, RoboGnilos, is suggested and explored. This study takes inspirations from biological world to practical control algorithms. In detail, an iterative learning scheme based control is studied with the cooperation of a filter to reduce the measurement noise, and a curve fitting component to keep the necessary phase difference between neighboring fin rays. Moreover, the iterative learning control algorithm is designed and implemented for practical applications. The experimental results validate that the proposed learning control can effectively improve the propulsion of RoboGnilos. For instance, the steady propulsion velocity may be enhanced by over 40% with some specified parameters.
biomimetic undulating fins fish-inspired propulsion learning control iterative learning flow adaptability
Jing Chen Tianjiang Hu Longxin Zin Haibin Xie Lincheng Shen
College of Mechatronic Engineering and Automation, National University of Defense Technology, Changsha 410073 P.R. China
国际会议
The 3rd International Conference of Bionic Engineering(第三届国际仿生工程会议ICBE10)
珠海
英文
191-198
2010-09-14(万方平台首次上网日期,不代表论文的发表时间)