We consider a system of two kinetic equations modelling a multicellular system : The first equation governs the dynamics of cells, whereas the second kinetic equation governs the dynamics of the chemoattractant. For this system, we first prove the existence of global-in-time solution. The proof of existence relies on a fixed point procedure after establishing some a priori estimates. Then, we investigate the hyperbolic limit after rescaling of the kinetic system. It leads to a macroscopic system of Cattaneo type. The rigorous derivation is established thanks to a compactness method
AbstractThis paper presents an asymptotic theory for a large class of Boltzmann-type equations suita...
International audienceWell-posedness and uniform-in-time boundedness of classical solutions are inve...
65 pages, 1 figureWe study linear inhomogeneous kinetic equations with an external confining potenti...
We consider a system of two kinetic equations modelling a multicellular system : The first equation ...
International audienceThis paper deals with the analysis of the asymptotic limit toward the derivati...
We introduce three new examples of kinetic models for chemotaxis, where a kinetic equation for the p...
In this work we numerically study the diffusive limit of run & tumble kinetic models for cell mo...
We consider a nonlinear PDEs system of two equations of Parabolic–Elliptic type with chemotactic ter...
International audienceThe hydrodynamic limit of a one dimensional kinetic model describing chemotaxi...
We consider a one dimensional hyperbolic system for chemosensitive movement, especially for chemotac...
International audienceWe study a hyperbolic-parabolic model of chemotaxis in dimensions one and two....
This paper deals with the analysis of the asymptotic limit towards the derivation of hyperbolic macr...
We are concerned with the hyperbolic Keller-Segel model with quorum sensing, a model describing the ...
We study a hyperbolic–parabolic model of chemotaxis related to tumor angiogenesis in dimensions one ...
International audienceWe consider two models which were both designed to describe the movement of eu...
AbstractThis paper presents an asymptotic theory for a large class of Boltzmann-type equations suita...
International audienceWell-posedness and uniform-in-time boundedness of classical solutions are inve...
65 pages, 1 figureWe study linear inhomogeneous kinetic equations with an external confining potenti...
We consider a system of two kinetic equations modelling a multicellular system : The first equation ...
International audienceThis paper deals with the analysis of the asymptotic limit toward the derivati...
We introduce three new examples of kinetic models for chemotaxis, where a kinetic equation for the p...
In this work we numerically study the diffusive limit of run & tumble kinetic models for cell mo...
We consider a nonlinear PDEs system of two equations of Parabolic–Elliptic type with chemotactic ter...
International audienceThe hydrodynamic limit of a one dimensional kinetic model describing chemotaxi...
We consider a one dimensional hyperbolic system for chemosensitive movement, especially for chemotac...
International audienceWe study a hyperbolic-parabolic model of chemotaxis in dimensions one and two....
This paper deals with the analysis of the asymptotic limit towards the derivation of hyperbolic macr...
We are concerned with the hyperbolic Keller-Segel model with quorum sensing, a model describing the ...
We study a hyperbolic–parabolic model of chemotaxis related to tumor angiogenesis in dimensions one ...
International audienceWe consider two models which were both designed to describe the movement of eu...
AbstractThis paper presents an asymptotic theory for a large class of Boltzmann-type equations suita...
International audienceWell-posedness and uniform-in-time boundedness of classical solutions are inve...
65 pages, 1 figureWe study linear inhomogeneous kinetic equations with an external confining potenti...