Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China

Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China

The mechanisms of traffic congestion generation are more than complicated, due to complex geometric road designs and complicated driving behavior at urban expressways in China. We employ a cell transmission model (CTM) to simulate the traffic flow spatiotemporal evolution process along the expresswa...

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Bibliographic Details
Main Authors: Kejun Long, Qin Lin, Jian Gu, Wei Wu, Lee D. Han
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Series:Sustainability
Subjects:
urban expressway
cell transmission model
mandatory merge
merge section
diverge section
Online Access:https://www.mdpi.com/2071-1050/10/12/4359
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spelling doaj-cb27559523224a47a030a11f21a249f12020-11-24T23:24:15ZengMDPI AGSustainability2071-10502018-11-011012435910.3390/su10124359su10124359Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in ChinaKejun Long0Qin Lin1Jian Gu2Wei Wu3Lee D. Han4Hunan Key Laboratory of Smart Roadway and Cooperative Vehicle-Infrastructure Systems, Changsha University of Science & Technology, Changsha 410004, ChinaSchool of Traffic and Transportation Engineering, Changsha University of Science & Technology, Changsha 410004, ChinaHunan Key Laboratory of Smart Roadway and Cooperative Vehicle-Infrastructure Systems, Changsha University of Science & Technology, Changsha 410004, ChinaSchool of Traffic and Transportation Engineering, Changsha University of Science & Technology, Changsha 410004, ChinaDepartment of Civil and Environmental Engineering, The University of Tennessee, Knoxville, TN 37996, USAThe mechanisms of traffic congestion generation are more than complicated, due to complex geometric road designs and complicated driving behavior at urban expressways in China. We employ a cell transmission model (CTM) to simulate the traffic flow spatiotemporal evolution process along the expressway, and reveal the characteristics of traffic congestion occurrence and propagation. Here, we apply the variable-length-cell CTM to adapt the complicated road geometry and configuration, and propose the merge section CTM considering drivers’ mandatory lane-changing and other unreasonable behavior at the on-ramp merge section, and propose the diverge section CTM considering queue length end extending the expressway mainline to generate a dynamic bottleneck at the diverge section. In the new improved CTM model, we introduce merge ratio and diverge ratio to describe the effect of driver behavior at the merge and diverge section. We conduct simulations on the real urban expressway in China, with results showing that the merge section and diverge section are the original location of expressway traffic congestion generation, and on/off-ramp traffic flow has a great effect on the expressway mainline operation. When on-ramp traffic volume increases by 40%, the merge section delay increases by 35%, and when off-ramp capacity increases by 100 veh/hr, the diverge section delay decreases about by 10%, which proves the strong interaction between expressway and adjacent road networks. Our results provide the underlying insights of traffic congestion mechanism in urban expressway in China, which can be used to better understand and manage this issue.https://www.mdpi.com/2071-1050/10/12/4359urban expresswaycell transmission modelmandatory mergemerge sectiondiverge section
collection DOAJ
language English
format Article
sources DOAJ
author Kejun Long
Qin Lin
Jian Gu
Wei Wu
Lee D. Han
spellingShingle Kejun Long
Qin Lin
Jian Gu
Wei Wu
Lee D. Han
Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China
Sustainability
urban expressway
cell transmission model
mandatory merge
merge section
diverge section
author_facet Kejun Long
Qin Lin
Jian Gu
Wei Wu
Lee D. Han
author_sort Kejun Long
title Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China
title_short Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China
title_full Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China
title_fullStr Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China
title_full_unstemmed Exploring Traffic Congestion on Urban Expressways Considering Drivers’ Unreasonable Behavior at Merge/Diverge Sections in China
title_sort exploring traffic congestion on urban expressways considering drivers’ unreasonable behavior at merge/diverge sections in china
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2018-11-01
description The mechanisms of traffic congestion generation are more than complicated, due to complex geometric road designs and complicated driving behavior at urban expressways in China. We employ a cell transmission model (CTM) to simulate the traffic flow spatiotemporal evolution process along the expressway, and reveal the characteristics of traffic congestion occurrence and propagation. Here, we apply the variable-length-cell CTM to adapt the complicated road geometry and configuration, and propose the merge section CTM considering drivers’ mandatory lane-changing and other unreasonable behavior at the on-ramp merge section, and propose the diverge section CTM considering queue length end extending the expressway mainline to generate a dynamic bottleneck at the diverge section. In the new improved CTM model, we introduce merge ratio and diverge ratio to describe the effect of driver behavior at the merge and diverge section. We conduct simulations on the real urban expressway in China, with results showing that the merge section and diverge section are the original location of expressway traffic congestion generation, and on/off-ramp traffic flow has a great effect on the expressway mainline operation. When on-ramp traffic volume increases by 40%, the merge section delay increases by 35%, and when off-ramp capacity increases by 100 veh/hr, the diverge section delay decreases about by 10%, which proves the strong interaction between expressway and adjacent road networks. Our results provide the underlying insights of traffic congestion mechanism in urban expressway in China, which can be used to better understand and manage this issue.
topic urban expressway
cell transmission model
mandatory merge
merge section
diverge section
url https://www.mdpi.com/2071-1050/10/12/4359
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