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
The influence of a plane boundary on low-Reynolds-number swimmers has frequently been studied using ...
International audienceWe study the locomotion of a ciliated microorganism in a viscous incompressibl...
We study the effect of a nearby planar wall on the propulsion of a phoretic Janus micro-swimmer driv...
The locomotion of microorganisms and tiny artificial swimmers is governed by low-Reynolds-number hy...
Abstract. Locomotion of microorganisms and tiny artificial swimmers is governed by low-Reynolds-numb...
The motion of microorganisms as well as of tiny robotic swimmers for biomedical applications is gove...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
Abstract: Swimming, i.e., being able to advance in the absence of external forces by performing cycl...
The study of swimming micro-organisms has been of interest not just to biologists, but also to fluid...
Induction of flow is commonly used to control the migration of a microswimmer in a confined system s...
This thesis is devoted to the mathematical study of the swimming at low Reynolds number. The control...
We study the effect of a rough wall on the controllability of micro-swimmers made of several balls l...
We study the effect of a nearby planar wall on the propulsion of a spherical phoretic micro-swimmer ...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
Synthetic microswimmers take an important place within the interdisciplinary field of active soft ma...
The influence of a plane boundary on low-Reynolds-number swimmers has frequently been studied using ...
International audienceWe study the locomotion of a ciliated microorganism in a viscous incompressibl...
We study the effect of a nearby planar wall on the propulsion of a phoretic Janus micro-swimmer driv...
The locomotion of microorganisms and tiny artificial swimmers is governed by low-Reynolds-number hy...
Abstract. Locomotion of microorganisms and tiny artificial swimmers is governed by low-Reynolds-numb...
The motion of microorganisms as well as of tiny robotic swimmers for biomedical applications is gove...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
Abstract: Swimming, i.e., being able to advance in the absence of external forces by performing cycl...
The study of swimming micro-organisms has been of interest not just to biologists, but also to fluid...
Induction of flow is commonly used to control the migration of a microswimmer in a confined system s...
This thesis is devoted to the mathematical study of the swimming at low Reynolds number. The control...
We study the effect of a rough wall on the controllability of micro-swimmers made of several balls l...
We study the effect of a nearby planar wall on the propulsion of a spherical phoretic micro-swimmer ...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
Synthetic microswimmers take an important place within the interdisciplinary field of active soft ma...
The influence of a plane boundary on low-Reynolds-number swimmers has frequently been studied using ...
International audienceWe study the locomotion of a ciliated microorganism in a viscous incompressibl...
We study the effect of a nearby planar wall on the propulsion of a phoretic Janus micro-swimmer driv...