In this paper we consider an initial and boundary value problem that models the self-propelled motion of solids in a bidimensional viscous incompressible fluid. The self-propelling mechanism, consisting of appropriate deformations of the solids, is a simplified model of the propulsion mechanism of fish-like swimmers. The governing equations consist of the Navier–Stokes equations for the fluid, coupled to Newton’s laws for the solids. Since we consider the case in which the fluid–solid system fills 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 novel result of this w...
11th World Congress on Computational Mechanics (WCCM) / 5th European ă Conference on Computational M...
We investigate a simple model for a self-propelled swimmer, which consists of a fluctuating force ac...
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...
-International audienceIn this paper we consider an initial and boundary value problem modeling the ...
Fish swimming is an intriguing subject of interest in fluid mechanics at the border with other disci...
International audienceThis paper deals with numerical simulations on a self-propelled fish-like body...
Understanding fish-like locomotion as a result of internal shape changes may result in improved unde...
Modeling and simulation of two-dimensional flows past deformable bodies are considered. The incompre...
In the first chapter, we have studied, via direct numerical simulations, the equilibrium radial posi...
The aim of this work is to investigate numerically the efficiency of fish like swimming. We are inte...
The self-propelled swimming of a flexible propulsor is numerically investigated by using fluid-struc...
Active bodies undergo self-propulsive motion in a fluid medium and span a broad range of length and ...
This paper is concerned with modeling the dynamics of N articulated solid bodies submerged in an ide...
In this paper we study the locomotion of a shape-changing body swimming in a two-dimensional perfect...
AbstractIn this paper, we investigate the problem of the motion of self-propelled rigid bodies in a ...
11th World Congress on Computational Mechanics (WCCM) / 5th European ă Conference on Computational M...
We investigate a simple model for a self-propelled swimmer, which consists of a fluctuating force ac...
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...
-International audienceIn this paper we consider an initial and boundary value problem modeling the ...
Fish swimming is an intriguing subject of interest in fluid mechanics at the border with other disci...
International audienceThis paper deals with numerical simulations on a self-propelled fish-like body...
Understanding fish-like locomotion as a result of internal shape changes may result in improved unde...
Modeling and simulation of two-dimensional flows past deformable bodies are considered. The incompre...
In the first chapter, we have studied, via direct numerical simulations, the equilibrium radial posi...
The aim of this work is to investigate numerically the efficiency of fish like swimming. We are inte...
The self-propelled swimming of a flexible propulsor is numerically investigated by using fluid-struc...
Active bodies undergo self-propulsive motion in a fluid medium and span a broad range of length and ...
This paper is concerned with modeling the dynamics of N articulated solid bodies submerged in an ide...
In this paper we study the locomotion of a shape-changing body swimming in a two-dimensional perfect...
AbstractIn this paper, we investigate the problem of the motion of self-propelled rigid bodies in a ...
11th World Congress on Computational Mechanics (WCCM) / 5th European ă Conference on Computational M...
We investigate a simple model for a self-propelled swimmer, which consists of a fluctuating force ac...
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...