Jean-François Scheid scite author profile

In this paper we consider an initial and boundary value problem modeling the self-propelled motion of solids in a bi-dimensional viscous incompressible uid. The self-propelling mechanism, consisting in appropriate deformations of the solids, is a simplied model for the propulsion mechanism of sh-like swimmers. The governing equations are composed of the Navier-Stokes equations for the uid, coupled to Newton's laws for the solids. Since we consider the case in which the uid-solid systems lls a bounded domain we have to tackle a free boundary value problem. The main theoretical result in the paper asserts the global existence and uniqueness (up to possible contacts) of strong solutions of this problem. The second novelty brought in by this work is that we give a numerical method for the uid-solid system. This method allows the simulation of the simultaneous displacement of several swimmers and it is tested on several examples.

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Jean-François Scheid

Controllability and Time Optimal Control for Low Reynolds Numbers Swimmers

An Initial and Boundary Value Problem Modeling of Fish-like Swimming

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