An Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior

In order to prevent the occurrence of traffic accidents, drivers always focus on the running conditions of the preceding and rear vehicles to change their driving behavior. By taking into the “backward-looking” effect and the driver’s anticipation effect of flux difference consideration at the same...

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Autores principales: Jin Wan, Xin Huang, Wenzhi Qin, Xiuge Gu, Min Zhao
Formato: article
Lenguaje:EN
Publicado: Hindawi-Wiley 2021
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spelling oai:doaj.org-article:2bfceeb5699b47608068133c722256c62021-11-15T01:20:10ZAn Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior1099-052610.1155/2021/4642202https://doaj.org/article/2bfceeb5699b47608068133c722256c62021-01-01T00:00:00Zhttp://dx.doi.org/10.1155/2021/4642202https://doaj.org/toc/1099-0526In order to prevent the occurrence of traffic accidents, drivers always focus on the running conditions of the preceding and rear vehicles to change their driving behavior. By taking into the “backward-looking” effect and the driver’s anticipation effect of flux difference consideration at the same time, a novel two-lane lattice hydrodynamic model is proposed to reveal driving characteristics. The corresponding stability conditions are derived through a linear stability analysis. Then, the nonlinear theory is also applied to derive the mKdV equation describing traffic congestion near the critical point. Linear and nonlinear analyses of the proposed model show that how the “backward-looking” effect and the driver’s anticipation behavior comprehensively affect the traffic flow stability. The results show that the positive constant γ, the driver’s anticipation time τ, and the sensitivity coefficient p play significant roles in the improvement of traffic flow stability and the alleviation of the traffic congestion. Furthermore, the effectiveness of linear stability analysis and nonlinear analysis results is demonstrated by numerical simulations.Jin WanXin HuangWenzhi QinXiuge GuMin ZhaoHindawi-WileyarticleElectronic computers. Computer scienceQA75.5-76.95ENComplexity, Vol 2021 (2021)
institution DOAJ
collection DOAJ
language EN
topic Electronic computers. Computer science
QA75.5-76.95
spellingShingle Electronic computers. Computer science
QA75.5-76.95
Jin Wan
Xin Huang
Wenzhi Qin
Xiuge Gu
Min Zhao
An Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior
description In order to prevent the occurrence of traffic accidents, drivers always focus on the running conditions of the preceding and rear vehicles to change their driving behavior. By taking into the “backward-looking” effect and the driver’s anticipation effect of flux difference consideration at the same time, a novel two-lane lattice hydrodynamic model is proposed to reveal driving characteristics. The corresponding stability conditions are derived through a linear stability analysis. Then, the nonlinear theory is also applied to derive the mKdV equation describing traffic congestion near the critical point. Linear and nonlinear analyses of the proposed model show that how the “backward-looking” effect and the driver’s anticipation behavior comprehensively affect the traffic flow stability. The results show that the positive constant γ, the driver’s anticipation time τ, and the sensitivity coefficient p play significant roles in the improvement of traffic flow stability and the alleviation of the traffic congestion. Furthermore, the effectiveness of linear stability analysis and nonlinear analysis results is demonstrated by numerical simulations.
format article
author Jin Wan
Xin Huang
Wenzhi Qin
Xiuge Gu
Min Zhao
author_facet Jin Wan
Xin Huang
Wenzhi Qin
Xiuge Gu
Min Zhao
author_sort Jin Wan
title An Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior
title_short An Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior
title_full An Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior
title_fullStr An Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior
title_full_unstemmed An Improved Lattice Hydrodynamic Model by considering the Effect of “Backward-Looking” and Anticipation Behavior
title_sort improved lattice hydrodynamic model by considering the effect of “backward-looking” and anticipation behavior
publisher Hindawi-Wiley
publishDate 2021
url https://doaj.org/article/2bfceeb5699b47608068133c722256c6
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