Add to ORKGInternational audienceThis paper details a new macroscopic traffic flow model accounting for the boundedness of traffic acceleration, which is required for physical realism. Our approach relies on the coupling between a scalar conservation law, which refers to the seminal LWR model, and a system of Ordinary Differential Equations describing the trajectory of accelerating vehicles, which we treat as moving constraints. We propose a Wave Front Tracking Algorithm to construct approximate solutions. We use this algorithm to prove the existence of solutions to the associated Cauchy Problem, and provide some numerical examples illustrating the solution behaviour
The kinematic wave model, also known as the Lighthill–Whitham– Richards, or LWR, model (1, 2), is us...
This article deals with the modeling for an individual car path through a road network, where the dy...
We consider a generalized version of the Hughes’ macroscopic model of pedestrian motion. I...
International audienceThis paper details a new macroscopic traffic flow model accounting for the bou...
In this paper, we propose a new mathematical model accounting for the boundedness of traffic acceler...
In this contribution a model-based analysis of the application of bounded acceleration in traffic fl...
We consider a strongly coupled PDE-ODE system that describes the influence of a slow and large vehic...
Abstract. We code the wave-front tracking algorithm for Hughes ’ model of pedestrian motion with gen...
This monograph presents a systematic treatment of the theory for hyperbolic conservation laws and t...
Several realistic situations in vehicular traffic that give rise to queues can be modeled through co...
Second-order macroscopic traffic models are characterized by a continuity equation and an accelerati...
International audienceWe prove the existence of solutions of a coupled PDE-ODE system modeling the i...
Moving bottlenecks in road traffic represent an interesting mathematical problem, which can be model...
This thesis is devoted to macroscopic traffic flow modelling, which describes traffic flow by variab...
This paper presents a numerical method to model kinematic wave (KW) traffic streams containing slow ...
The kinematic wave model, also known as the Lighthill–Whitham– Richards, or LWR, model (1, 2), is us...
This article deals with the modeling for an individual car path through a road network, where the dy...
We consider a generalized version of the Hughes’ macroscopic model of pedestrian motion. I...
International audienceThis paper details a new macroscopic traffic flow model accounting for the bou...
In this paper, we propose a new mathematical model accounting for the boundedness of traffic acceler...
In this contribution a model-based analysis of the application of bounded acceleration in traffic fl...
We consider a strongly coupled PDE-ODE system that describes the influence of a slow and large vehic...
Abstract. We code the wave-front tracking algorithm for Hughes ’ model of pedestrian motion with gen...
This monograph presents a systematic treatment of the theory for hyperbolic conservation laws and t...
Several realistic situations in vehicular traffic that give rise to queues can be modeled through co...
Second-order macroscopic traffic models are characterized by a continuity equation and an accelerati...
International audienceWe prove the existence of solutions of a coupled PDE-ODE system modeling the i...
Moving bottlenecks in road traffic represent an interesting mathematical problem, which can be model...
This thesis is devoted to macroscopic traffic flow modelling, which describes traffic flow by variab...
This paper presents a numerical method to model kinematic wave (KW) traffic streams containing slow ...
The kinematic wave model, also known as the Lighthill–Whitham– Richards, or LWR, model (1, 2), is us...
This article deals with the modeling for an individual car path through a road network, where the dy...
We consider a generalized version of the Hughes’ macroscopic model of pedestrian motion. I...
