A macroscopic traffic flow model that includes driver sensitivity to the number of free spaces ahead

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Pour, I. M ; Sharif University of Technology

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Type of Document: Article
DOI: 10.1080/21680566.2017.1377647
Abstract:
This paper addresses the first-order extension of the Lighthill–Whitham– Richards (LWR) macroscopic traffic flow model. Although previous studies have focused on the fluid aspect of traffic flow, none have addressed the sensitivity of drivers to the number of free spaces within a certain distance ahead of the subject driver. To incorporate driver behavior, we used the number of free spaces ahead of subject drivers and their sensitivity to the number of free spaces within a certain distance ahead. The resulting model is a convection-diffusion model. By computing Einstein's diffusion equation and comparing it with the diffusion coefficient in the extended model, a theoretical relation for the driver's sensitivity was derived. A representation of the numerical results of the LWR model, the convection-diffusion model with a typical diffusion coefficient, and the extended model showed that the proposed model has a lower mean relative error value. © 2017 Hong Kong Society for Transportation Studies Limited
Keywords:
Burger equation ; Convection-diffusion equation ; Driver sensitivity ; Traffic flow ; Diffusion coefficient ; Driving ability ; Human ; Liquid ; Theoretical study ; Thermodynamics
Source: Transportmetrica B ; 2017 , Pages 1-17 ; 21680566 (ISSN)
URL: https://www.tandfonline.com/doi/abs/10.1080/21680566.2017.1377647?journalCode=ttrb20