The presented work in this thesis is devoted to the development of a dynamic model for the an- guilliform swimming suited to the real time control of the future biomimetic "Eel-like robot" of the ROBEA-CNRS project of the same name. The computation of the interactions between a deformable body and the fluid, in which it moves, is a complex problem requiring the integration of the Navier-Stokes equations and the non-linear dynamic equations of the body enduring finished transformations. Pursuing goals of control for robotic, the suggested solution is based on the fusion of two theories : the Slender Body Theory of the fluid mechanic and Cosserat Beam Theory of the solid mechanic. The first theory models the 3-D flow around fish by the strati...
This paper deals with a three-dimensional (3-D) dynamic model for a free-swimming, multi-link fish-l...
International audienceThe best known analytical model of swimming was originally developed by Lighth...
This paper focuses on the dynamic modeling of a self-propelled, multimodal ostraciiform robotic fish...
Le travail présenté dans ce manuscrit est consacré à l'élaboration d'un modèle dynamique de la nage ...
In order to improve the performance of the submarine robots, the robotics community has been conside...
This thesis takes place in the framework of the project "Robot-Anguille", which gathers six French l...
This article, entitled "Biohydrodynamics and Numerical Simulations", deals with fields of research l...
Pour améliorer les performances des robots sous marins, l’une des approches poursuivie par les robot...
Cette thèse se place dans le cadre du projet Robot-Anguille, qui regroupe six laboratoires français....
International audienceThis article proposes a dynamic model of the swim of elongated ﰣshes suited to...
International audienceThis paper deals with numerical simulations on a self-propelled fish-like body...
Le mémoire "Swimming eel-like robot" consiste en la réalisation d'un robot à nage anguilliforme afin...
This paper presents a three-dimensional, dynamic model of robotic fish which synthesizes both the ca...
Propulsion and manoeuvring ability are parts of the most common and complicated mechanisms in nature...
This project is dedicated to perform 3D simulation for the swimming motion the anguilliform swimmer,...
This paper deals with a three-dimensional (3-D) dynamic model for a free-swimming, multi-link fish-l...
International audienceThe best known analytical model of swimming was originally developed by Lighth...
This paper focuses on the dynamic modeling of a self-propelled, multimodal ostraciiform robotic fish...
Le travail présenté dans ce manuscrit est consacré à l'élaboration d'un modèle dynamique de la nage ...
In order to improve the performance of the submarine robots, the robotics community has been conside...
This thesis takes place in the framework of the project "Robot-Anguille", which gathers six French l...
This article, entitled "Biohydrodynamics and Numerical Simulations", deals with fields of research l...
Pour améliorer les performances des robots sous marins, l’une des approches poursuivie par les robot...
Cette thèse se place dans le cadre du projet Robot-Anguille, qui regroupe six laboratoires français....
International audienceThis article proposes a dynamic model of the swim of elongated ﰣshes suited to...
International audienceThis paper deals with numerical simulations on a self-propelled fish-like body...
Le mémoire "Swimming eel-like robot" consiste en la réalisation d'un robot à nage anguilliforme afin...
This paper presents a three-dimensional, dynamic model of robotic fish which synthesizes both the ca...
Propulsion and manoeuvring ability are parts of the most common and complicated mechanisms in nature...
This project is dedicated to perform 3D simulation for the swimming motion the anguilliform swimmer,...
This paper deals with a three-dimensional (3-D) dynamic model for a free-swimming, multi-link fish-l...
International audienceThe best known analytical model of swimming was originally developed by Lighth...
This paper focuses on the dynamic modeling of a self-propelled, multimodal ostraciiform robotic fish...