Integrating the Bi-dimensional-GSOM traffic flow interfaced models with a macroscopic emission model for very large-scale traffic networks

In this study, a coupled macroscopic traffic models and pollutant emission model for a very large-scale traffic networks is proposed. In order to overcome the missing data for large networks a continuum traffic modeling is developed aiming at simulating traffic of very large and dense networks. The...

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Bibliographic Details
Published in:Transportation research procedia (Online) 2024, Vol.78, p.254-263
Main Authors: Heni, Leila, Haj-Salem, Habib, Lebacque, Jean-Patrick, Slimi, Khalifa
Format: Article
Language:English
Subjects:
Bi-dimensional model
COPERT
emission model
Godunov scheme
GSOM model
Large networks modeling
macroscopic model
traffic flow
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Summary:In this study, a coupled macroscopic traffic models and pollutant emission model for a very large-scale traffic networks is proposed. In order to overcome the missing data for large networks a continuum traffic modeling is developed aiming at simulating traffic of very large and dense networks. The present paper aims to merge both macroscopic traffic models (i. e. the Bi-dimensional model, BIDIM) with the generic second order model (GSOM) using real data. These two models will be associated with an emission model. The method consists of proposing an interface node model to ensure the exchange between the BIDIM and the GSOM traffic model. Then a vehicle emission model COPERT was adopted to provide the emission factors based on average speeds, in order to calculate macroscopic emissions for large networks. The dynamic of the developed simulation model reproduces the propagation of the congestion between both models and the evolution of emission pollutant in the networks. Applied to real networks, Marne La Vallée site and the A4 highway in France, the output results are very promising.
ISSN:2352-1465
2352-1465
DOI:10.1016/j.trpro.2024.02.033