This paper is concerned with modeling the dynamics of N articulated solid bodies submerged in an ideal fluid. The model is used to analyze the locomotion of aquatic animals due to the coupling between their shape changes and the fluid dynamics in their environment. The equations of motion are obtained by making use of a two-stage reduction process which leads to significant mathematical and computational simplifications. The first reduction exploits particle relabeling symmetry: that is, the symmetry associated with the conservation of circulation for ideal, incompressible fluids. As a result, the equations of motion for the submerged solid bodies can be formulated without explicitly incorporating the fluid variables. This reduction by the ...
Understanding fish-like locomotion as a result of internal shape changes may result in improved unde...
We present a formulation for coupled solutions of fluid and body dynamics in problems of biolocomoti...
This paper presents an approach to quantify the unsteady fluid forces, moments and mass transport ge...
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...
An articulated body can propel and steer itself in a perfect fluid by changing its shape only. Our ...
Abstract. Understanding fish-like locomotion as a result of internal shape changes may result in imp...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Our model for locomotion buil...
Motivated by considerations of shape changing propulsion of underwater robotic vehicles, this paper ...
35 pages, 11 figuresInternational audienceAn articulated body is defined as a finite number of rigid...
Fish swimming is an intriguing subject of interest in fluid mechanics at the border with other disci...
It is seen in some natural biological situations, that a living organism requiring a change in its l...
Modeling and simulation of two-dimensional flows past deformable bodies are considered. The incompre...
International audienceThis paper deals with numerical simulations on a self-propelled fish-like body...
In this paper we consider an initial and boundary value problem that models the self-propelled motio...
Understanding fish-like locomotion as a result of internal shape changes may result in improved unde...
We present a formulation for coupled solutions of fluid and body dynamics in problems of biolocomoti...
This paper presents an approach to quantify the unsteady fluid forces, moments and mass transport ge...
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...
An articulated body can propel and steer itself in a perfect fluid by changing its shape only. Our ...
Abstract. Understanding fish-like locomotion as a result of internal shape changes may result in imp...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Our model for locomotion buil...
Motivated by considerations of shape changing propulsion of underwater robotic vehicles, this paper ...
35 pages, 11 figuresInternational audienceAn articulated body is defined as a finite number of rigid...
Fish swimming is an intriguing subject of interest in fluid mechanics at the border with other disci...
It is seen in some natural biological situations, that a living organism requiring a change in its l...
Modeling and simulation of two-dimensional flows past deformable bodies are considered. The incompre...
International audienceThis paper deals with numerical simulations on a self-propelled fish-like body...
In this paper we consider an initial and boundary value problem that models the self-propelled motio...
Understanding fish-like locomotion as a result of internal shape changes may result in improved unde...
We present a formulation for coupled solutions of fluid and body dynamics in problems of biolocomoti...
This paper presents an approach to quantify the unsteady fluid forces, moments and mass transport ge...