Add to ORKGIn this paper, we propose a macroscopic model that describes the influence of a slow moving large vehicle on road traffic. The model consists of a scalar conservation law with a non-local constraint on the flux. The constraint level depends on the trajectory of the slower vehicle which is given by an ODE depending on the downstream traffic density. After proving well-posedness, we first build a finite volume scheme and prove its convergence, and then investigate numerically this model by performing a series of tests. In particular, the link with the limit local problem of [M.L. Delle Monache and P. Goatin, J. Differ. Equ. 257(11), 4015-4029 (2014)] is explored numerically
We propose and study a nonlocal conservation law modelling traffic flow in the existence of inter-ve...
In this thesis, we provide mathematical traffic flow models with non-local fluxes and adapted numeri...
We consider a strongly coupled PDE-ODE system that describes the influence of a slow and large vehic...
International audienceWe consider an extension of the traffic flow model proposed by Lighthill, Whit...
International audienceWe prove existence and uniqueness of solutions to a transport equation modelli...
International audienceWe prove existence and uniqueness of solutions to a transport equation modelli...
International audienceWe consider a strongly coupled PDE-ODE system that describes the influence of ...
International audienceWe prove existence and uniqueness of solutions to a transport equation modelli...
International audienceWe consider a strongly coupled PDE-ODE system that describes the influence of ...
International audienceThis paper details a new macroscopic traffic flow model accounting for the bou...
We give an overview of mathematical traffic flow models with non-local velocity. More precisely, we ...
We study a class of nonlinear nonlocal conservation laws with discontinuous flux, modeling crowd dyn...
We study a class of nonlinear nonlocal conservation laws with discontinuous flux, modeling crowd dyn...
We study the derivation of macroscopic traffic models out of optimal speed and follow-the-leader par...
We propose and study a nonlocal conservation law modelling traffic flow in the existence of inter-ve...
We propose and study a nonlocal conservation law modelling traffic flow in the existence of inter-ve...
In this thesis, we provide mathematical traffic flow models with non-local fluxes and adapted numeri...
We consider a strongly coupled PDE-ODE system that describes the influence of a slow and large vehic...
International audienceWe consider an extension of the traffic flow model proposed by Lighthill, Whit...
International audienceWe prove existence and uniqueness of solutions to a transport equation modelli...
International audienceWe prove existence and uniqueness of solutions to a transport equation modelli...
International audienceWe consider a strongly coupled PDE-ODE system that describes the influence of ...
International audienceWe prove existence and uniqueness of solutions to a transport equation modelli...
International audienceWe consider a strongly coupled PDE-ODE system that describes the influence of ...
International audienceThis paper details a new macroscopic traffic flow model accounting for the bou...
We give an overview of mathematical traffic flow models with non-local velocity. More precisely, we ...
We study a class of nonlinear nonlocal conservation laws with discontinuous flux, modeling crowd dyn...
We study a class of nonlinear nonlocal conservation laws with discontinuous flux, modeling crowd dyn...
We study the derivation of macroscopic traffic models out of optimal speed and follow-the-leader par...
We propose and study a nonlocal conservation law modelling traffic flow in the existence of inter-ve...
We propose and study a nonlocal conservation law modelling traffic flow in the existence of inter-ve...
In this thesis, we provide mathematical traffic flow models with non-local fluxes and adapted numeri...
We consider a strongly coupled PDE-ODE system that describes the influence of a slow and large vehic...