Mechanics and control of swimming: a review

Author

Colgate, J. Edward ; Lynch, Kevin M.

Author_Institution

Mech. Eng. Dept., Northwestern Univ., Evanston, IL, USA

Volume

29

Issue

3

fYear

2004

fDate

7/1/2004 12:00:00 AM

Firstpage

660

Lastpage

673

Abstract

The bodies and brains of fish have evolved to achieve control objectives beyond the capabilities of current underwater vehicles. One route toward designing underwater vehicles with similar capabilities is to better understand fish physiological design and control strategies. This paper has two objectives: 1) to review clues to artificial swimmer design taken from fish physiology and 2) to formalize and review the control problems that must be solved by a robot fish. The goal is to exploit fish locomotion principles to address the truly difficult control challenges of station keeping under large perturbations, rapid maneuvering, power-efficient endurance swimming, and trajectory planning and tracking. The design and control of biomimetic swimming machines meeting these challenges will require state-of-the-art engineering and biology.

Keywords

biocontrol; biomechanics; biomimetics; motion control; remotely operated vehicles; reviews; underwater vehicles; zoology; artificial swimmer design; biomimetic swimming machines; fish control strategies; fish locomotion principles; fish physiological design; large perturbations; motion primitives; power-efficient endurance swimming; rapid maneuvering; robot fish; station keeping; swimming modes; trajectory planning; trajectory tracking; underwater vehicles; Biological control systems; Biology; Biomimetics; Design engineering; Marine animals; Physiology; Power engineering and energy; Robots; Trajectory; Underwater vehicles; 65; Controllability; motion primitives; robot fish design; station keeping; swimming modes; trajectory tracking;

fLanguage

English

Journal_Title

Oceanic Engineering, IEEE Journal of

Publisher

ieee

ISSN

0364-9059

Type

jour

DOI

10.1109/JOE.2004.833208

Filename

1353419