Add to ORKGWe prove that linear and weakly non-linear run and tumble equations converge to a unique steady state solution with an exponential rate in a weighted total variation distance. In the linear setting, our result extends the previous results to an arbirtary dimension d ≥ 1 while relaxing the assumptions. The main challenge is that even though the equation is a mass-preserving, Boltzmann-type kinetic-transport equation, the classical L 2 hypocoercivity methods, e.g., by Dolbeault, Mouhot, Schmeiser (Tans. Amer. Math. Soc., 367(6):3807-3828, 2015) are not applicable for dimension d > 1. We overcome this diculty by using a probabilistic technique, known as Harris's theorem. We also introduce a weakly non-linear model via a non-local coupling on t...
International audienceWe investigate numerically a model consisting in a kinetic equation for the bi...
International audienceThe hydrodynamic limit of a one dimensional kinetic model describing chemotaxi...
Abstract. We investigate a linear kinetic equation derived from a velocity jump process modelling ba...
We prove that linear and weakly non-linear run and tumble equations converge to a unique steady stat...
We prove that linear and weakly nonlinear run and tumble equations converge to a unique steady state...
We prove that linear and weakly non-linear run and tumble equations converge to a unique steady stat...
We study the asymptotic behaviour of the run and tumble model for bacteria movement. Experiments sho...
In this work we numerically study the diffusive limit of run & tumble kinetic models for cell mo...
International audienceKinetic-transport equations are, by now, standard models to describe the dynam...
The run and tumble process is well established in order to describe the movement of bacteria in resp...
26 pagesInternational audienceThe hydrodynamic limit for a kinetic model of chemotaxis is investigat...
We develop a new method for proving hypocoercivity for a large class of linear kinetic equations wit...
AbstractA hyperbolic model for chemotaxis and chemosensitive movement in one space dimension is cons...
We introduce three new examples of kinetic models for chemotaxis, where a kinetic equation for the p...
15 pagesWe investigate a linear kinetic equation derived from a velocity jump process modelling bact...
International audienceWe investigate numerically a model consisting in a kinetic equation for the bi...
International audienceThe hydrodynamic limit of a one dimensional kinetic model describing chemotaxi...
Abstract. We investigate a linear kinetic equation derived from a velocity jump process modelling ba...
We prove that linear and weakly non-linear run and tumble equations converge to a unique steady stat...
We prove that linear and weakly nonlinear run and tumble equations converge to a unique steady state...
We prove that linear and weakly non-linear run and tumble equations converge to a unique steady stat...
We study the asymptotic behaviour of the run and tumble model for bacteria movement. Experiments sho...
In this work we numerically study the diffusive limit of run & tumble kinetic models for cell mo...
International audienceKinetic-transport equations are, by now, standard models to describe the dynam...
The run and tumble process is well established in order to describe the movement of bacteria in resp...
26 pagesInternational audienceThe hydrodynamic limit for a kinetic model of chemotaxis is investigat...
We develop a new method for proving hypocoercivity for a large class of linear kinetic equations wit...
AbstractA hyperbolic model for chemotaxis and chemosensitive movement in one space dimension is cons...
We introduce three new examples of kinetic models for chemotaxis, where a kinetic equation for the p...
15 pagesWe investigate a linear kinetic equation derived from a velocity jump process modelling bact...
International audienceWe investigate numerically a model consisting in a kinetic equation for the bi...
International audienceThe hydrodynamic limit of a one dimensional kinetic model describing chemotaxi...
Abstract. We investigate a linear kinetic equation derived from a velocity jump process modelling ba...