An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning

An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning

<p>The left-turn of vehicles at intersections has significant impacts on urban traffic congestions and accidents, which have negative effect on vehicle emissions causing air pollution. Many urban traffic networks prohibit direct left-turns for transport planning to keep traffic moving efficien...

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Bibliographic Details
Main Authors: Qi Li, Ren-Yong Guo, Wen-Juan Yang
Format: Article
Language:English
Published: University of Zagreb, Faculty of Transport and Traffic Sciences 2015-10-01
Series:Promet (Zagreb)
Subjects:
left-turn prohibition
traffic emissions
traffic assignment
user equilibrium (UE)
bi-level programming
Online Access:http://www.fpz.unizg.hr/traffic/index.php/PROMTT/article/view/1640
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spelling doaj-c612b547c6694406981686607a0fce172020-11-24T20:40:37ZengUniversity of Zagreb, Faculty of Transport and Traffic SciencesPromet (Zagreb)0353-53201848-40692015-10-0127537938610.7307/ptt.v27i5.16401218An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition PlanningQi Li0Ren-Yong Guo1Wen-Juan Yang2Inner Mongolia UniversityInner Mongolia UniversityInner Mongolia University<p>The left-turn of vehicles at intersections has significant impacts on urban traffic congestions and accidents, which have negative effect on vehicle emissions causing air pollution. Many urban traffic networks prohibit direct left-turns for transport planning to keep traffic moving efficiently on major roads. As such, this paper proposes a bi-level mathematical model for left-turn prohibition planning considering both travel times and traffic emissions. The lower-level and upper-level are respectively solved by using the Frank-Wolfe algorithm and an improved genetic algorithm. By numerical examples, this paper shows that the improved algorithm can effectively enhance the speed and accuracy of the calculation, and the traffic congestions and emissions can be alleviated by implementing the left-turn prohibition at some carefully selected intersections.</p>http://www.fpz.unizg.hr/traffic/index.php/PROMTT/article/view/1640left-turn prohibitiontraffic emissionstraffic assignmentuser equilibrium (UE)bi-level programming
collection DOAJ
language English
format Article
sources DOAJ
author Qi Li
Ren-Yong Guo
Wen-Juan Yang
spellingShingle Qi Li
Ren-Yong Guo
Wen-Juan Yang
An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning
Promet (Zagreb)
left-turn prohibition
traffic emissions
traffic assignment
user equilibrium (UE)
bi-level programming
author_facet Qi Li
Ren-Yong Guo
Wen-Juan Yang
author_sort Qi Li
title An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning
title_short An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning
title_full An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning
title_fullStr An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning
title_full_unstemmed An Emissions-Based User Equilibrium Model and Algorithm for Left-turn Prohibition Planning
title_sort emissions-based user equilibrium model and algorithm for left-turn prohibition planning
publisher University of Zagreb, Faculty of Transport and Traffic Sciences
series Promet (Zagreb)
issn 0353-5320
1848-4069
publishDate 2015-10-01
description <p>The left-turn of vehicles at intersections has significant impacts on urban traffic congestions and accidents, which have negative effect on vehicle emissions causing air pollution. Many urban traffic networks prohibit direct left-turns for transport planning to keep traffic moving efficiently on major roads. As such, this paper proposes a bi-level mathematical model for left-turn prohibition planning considering both travel times and traffic emissions. The lower-level and upper-level are respectively solved by using the Frank-Wolfe algorithm and an improved genetic algorithm. By numerical examples, this paper shows that the improved algorithm can effectively enhance the speed and accuracy of the calculation, and the traffic congestions and emissions can be alleviated by implementing the left-turn prohibition at some carefully selected intersections.</p>
topic left-turn prohibition
traffic emissions
traffic assignment
user equilibrium (UE)
bi-level programming
url http://www.fpz.unizg.hr/traffic/index.php/PROMTT/article/view/1640
work_keys_str_mv AT qili anemissionsbaseduserequilibriummodelandalgorithmforleftturnprohibitionplanning
AT renyongguo anemissionsbaseduserequilibriummodelandalgorithmforleftturnprohibitionplanning
AT wenjuanyang anemissionsbaseduserequilibriummodelandalgorithmforleftturnprohibitionplanning
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AT renyongguo emissionsbaseduserequilibriummodelandalgorithmforleftturnprohibitionplanning
AT wenjuanyang emissionsbaseduserequilibriummodelandalgorithmforleftturnprohibitionplanning
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