We study the local controllability properties of 2D and 3D bio-mimetic swimmers employing the change of their geometric shape to propel themselves in an incompressible fluid described by Navier-Stokes equations. It is assumed that swimmers' bodies consist of finitely many parts, identified with the fluid they occupy, that are subsequently linked by the rotational and elastic internal forces. These forces are explicitly described and serve as the means to affect the geometric configuration of swimmers' bodies. Similar models were previously investigated in [6]-[13]
In this analytical study we demonstrate the richness of behaviour exhibited by bead-spring micro-swi...
In this dissertation, we investigate the effect of shape on the motion of microscopic particles that...
In this dissertation, we investigate the effect of shape on the motion of microscopic particles that...
We study the local controllability properties of 2D and 3D bio-mimetic swimmers employing the chang...
We discuss a reduced model to compute the motion of slender swimmers which propel themselves by prop...
Abstract. In this article, we consider a swimmer (i.e. a self-deformable body) immersed in a fluid, ...
In this article, we consider a swimmer (i.e. a self-deformable body) immersed in a fluid, ...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
Abstract. We consider a finite-dimensional model for the motion of microscopic organisms whose propu...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Cell motility in viscous fluids is ubiquitous and affects many biological processes, including repro...
object consisting of three narrow rectangles connected by exible links, which \swims" in a row...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
Life under the microscope is significantly different from our experiences in the macroscopic world. ...
In this analytical study we demonstrate the richness of behaviour exhibited by bead-spring micro-swi...
In this dissertation, we investigate the effect of shape on the motion of microscopic particles that...
In this dissertation, we investigate the effect of shape on the motion of microscopic particles that...
We study the local controllability properties of 2D and 3D bio-mimetic swimmers employing the chang...
We discuss a reduced model to compute the motion of slender swimmers which propel themselves by prop...
Abstract. In this article, we consider a swimmer (i.e. a self-deformable body) immersed in a fluid, ...
In this article, we consider a swimmer (i.e. a self-deformable body) immersed in a fluid, ...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
Abstract. We consider a finite-dimensional model for the motion of microscopic organisms whose propu...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Cell motility in viscous fluids is ubiquitous and affects many biological processes, including repro...
object consisting of three narrow rectangles connected by exible links, which \swims" in a row...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
Life under the microscope is significantly different from our experiences in the macroscopic world. ...
In this analytical study we demonstrate the richness of behaviour exhibited by bead-spring micro-swi...
In this dissertation, we investigate the effect of shape on the motion of microscopic particles that...
In this dissertation, we investigate the effect of shape on the motion of microscopic particles that...