Dynamics and stability of a class of low Reynolds number swimmers near a wall
- Creators
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Or, Yizhar
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Murray, Richard M.
Abstract
We study the dynamic stability of low Reynolds number swimming near a plane wall from a control-theoretic viewpoint. We consider a special class of swimmers having a constant shape, focus on steady motion parallel to the wall, and derive conditions under which it is passively stable without sensing or feedback. We study the geometric structure of the swimming equation and highlight the relation between stability and reversing symmetry of the dynamical system. Finally, our numerical simulations reveal the existence of stable periodic motion. The results have implications for design of miniature robotic swimmers, as well as for explaining the attraction of micro-organisms to surfaces.
Additional Information
© 2009 The American Physical Society. Received 18 November 2008; revised 10 February 2009; published 13 April 2009. Y.O. was supported by the Fulbright Foundation and the Bikura Scholarship of the ISF. We thank the anonymous referees for their useful comments. PACS: 47.63.mf; 45.80.+r; 47.10.Fg; 11.30.Er.Attached Files
Published - Or2009p2549Phys_Rev_E.pdf
Supplemental Material - Or2009p2549Phys_Rev_E_readme_text.TXT
Supplemental Material - wall_pre_supp2.pdf
Files
Additional details
- Eprint ID
- 14512
- Resolver ID
- CaltechAUTHORS:20090708-083134251
- Fulbright Foundation
- Israeli Science Foundation
- Created
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2009-08-12Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field