A survey on fabrication, control, and hydrodynamic function of biomimetic robotic fish

被引:0
作者
JunZhi Yu
Li Wen
ZiYu Ren
机构
[1] Chinese Academy of Sciences,State Key Laboratory of Management and Control for Complex Systems, Institute of Automation
[2] Beihang University,School of Mechanical Engineering and Automation
来源
Science China Technological Sciences | 2017年 / 60卷
关键词
fish swimming; robots; robotic fish; hydrodynamics; motion control;
D O I
暂无
中图分类号
学科分类号
摘要
Understanding and replicating the locomotion principles of fish are fundamental in the development of artificial fishlike robotic systems, termed robotic fish. This paper has two objectives: (1) to review biological clues on biomechanics and hydrodynamic flow control of fish swimming and (2) to summarize design and control methods for efficient and stable swimming in robotic fishes. Our review of state-of-the-art research and future-oriented new directions indicates that fish-inspired biology and engineering interact in mutually beneficial ways. This strong interaction offers an important insight into the design and control of novel fish-inspired robots that addresses the challenge of environmental uncertainty and competing objectives; in addition, it also facilitates refinement of biological knowledge and robotic strategies for effective and efficient swimming.
引用
收藏
页码:1365 / 1380
页数:15
相关论文
共 307 条
[1]  
Sfakiotakis M(1999)Review of fish swimming modes for aquatic locomotion IEEE J Ocean Eng 24 237-252
[2]  
Lane D M(2006)Learning from fish: Kinematics and experimental hydrodynamics for roboticists Int J Automat Comput 3 325-335
[3]  
Davies J B C(2013)Advantages of natural propulsive systems Mar Technol Soc J 47 37-44
[4]  
Lauder G V(2009)Propulsion strategy analysis of high-speed swordfish Trans Jpn Soc Aero S Sci 52 11-20
[5]  
Madden P G A(2011)Autonomous robotic fish as mobile sensor platforms: Challenges and potential solutions Mar Technol Soc J 45 31-40
[6]  
Fish F E(2011)Development of a two-joint robotic fish for real-world exploration J Field Robotics 28 70-79
[7]  
Lee H J(2011)Implementation of a multi-link robotic dolphin with two 3-DOF flippers J Comput Inform Syst 7 2601-46
[8]  
Jong Y J(2015)A school of robotic fish for mariculture monitoring in the sea coast J Bionic Eng 12 37-1288
[9]  
Chang L M(2016)Coordination of multiple robotic fish with applications to underwater robot competition IEEE Trans Ind Electron 63 1280-2780
[10]  
Tan X(2007)Fish biorobotics: Kinematics and hydrodynamics of self-propulsion J Exp Biol 210 2767-571
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