Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling

Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling

The most common type of intersection improvement considered in Ghana is signalization. However, other actions such as the installation of left-turn lanes have been proven to improve the efficiency and safety of an intersection without the need for signalization in the short term. Warrants which guid...

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Main Authors: Eric Nyame-Baafi, Charles Anum Adams, Kwame Kwakwa Osei
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2018-10-01
Series:Journal of Traffic and Transportation Engineering (English ed. Online)
Online Access:http://www.sciencedirect.com/science/article/pii/S2095756417302441
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spelling doaj-c0df25f607b44c049f3a9d6db9f2c4432021-02-02T07:37:29ZengKeAi Communications Co., Ltd.Journal of Traffic and Transportation Engineering (English ed. Online)2095-75642018-10-0155417428Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modellingEric Nyame-Baafi0Charles Anum Adams1Kwame Kwakwa Osei2Urban Roads Department, Ejisu Municipal Assembly, Ejisu-Ashanti Region, Ghana; Corresponding author. Tel.: +233 545 348 814.Department of Civil Engineering, Kwame Nkrumah University of Science and Technology, Kumasi, GhanaDepartment of Civil Engineering, Kwame Nkrumah University of Science and Technology, Kumasi, GhanaThe most common type of intersection improvement considered in Ghana is signalization. However, other actions such as the installation of left-turn lanes have been proven to improve the efficiency and safety of an intersection without the need for signalization in the short term. Warrants which guide the installation of such lanes in Ghana are adopted from elsewhere and as a result do not reflect local traffic flow conditions. This study established volume warrants based on a delay threshold to guide the installation of left-turn lanes at unsignalized T-intersections using VISSIM micro simulation tool. The VISSIM model was calibrated using traffic flow, delay, average and maximum queue length data obtained from a two-hour video recording of the case study intersection during the morning peak period. After calibration, several scenarios covering a wide range of operational conditions were simulated. Using level of service (LOS) C cut off point of 25 s/veh as the maximum acceptable delay to minor road left-turning traffic, an equation y = −0.57x +1091 has been developed which predicts the minor road left-turn volume threshold (y) above which a minor road left-turn lane may be considered and below which a minor road left-turn lane may not be necessary for a range of major road volumes (x). The critical delay to major road left-turning traffic was found to be 16 s/veh. Major road left-turn lane volume warrants were also determined based on this threshold delay value. The approach used in this study can serve as a guide that can be used by metropolitan and municipal road engineers to assess the need for left-turn lanes. Keywords: Unsignalized T-intersection, Left-turn, Warrants, Delay, Micro simulation, VISSIMhttp://www.sciencedirect.com/science/article/pii/S2095756417302441
collection DOAJ
language English
format Article
sources DOAJ
author Eric Nyame-Baafi
Charles Anum Adams
Kwame Kwakwa Osei
spellingShingle Eric Nyame-Baafi
Charles Anum Adams
Kwame Kwakwa Osei
Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling
Journal of Traffic and Transportation Engineering (English ed. Online)
author_facet Eric Nyame-Baafi
Charles Anum Adams
Kwame Kwakwa Osei
author_sort Eric Nyame-Baafi
title Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling
title_short Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling
title_full Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling
title_fullStr Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling
title_full_unstemmed Volume warrants for major and minor roads left-turning traffic lanes at unsignalized T-intersections: A case study using VISSIM modelling
title_sort volume warrants for major and minor roads left-turning traffic lanes at unsignalized t-intersections: a case study using vissim modelling
publisher KeAi Communications Co., Ltd.
series Journal of Traffic and Transportation Engineering (English ed. Online)
issn 2095-7564
publishDate 2018-10-01
description The most common type of intersection improvement considered in Ghana is signalization. However, other actions such as the installation of left-turn lanes have been proven to improve the efficiency and safety of an intersection without the need for signalization in the short term. Warrants which guide the installation of such lanes in Ghana are adopted from elsewhere and as a result do not reflect local traffic flow conditions. This study established volume warrants based on a delay threshold to guide the installation of left-turn lanes at unsignalized T-intersections using VISSIM micro simulation tool. The VISSIM model was calibrated using traffic flow, delay, average and maximum queue length data obtained from a two-hour video recording of the case study intersection during the morning peak period. After calibration, several scenarios covering a wide range of operational conditions were simulated. Using level of service (LOS) C cut off point of 25 s/veh as the maximum acceptable delay to minor road left-turning traffic, an equation y = −0.57x +1091 has been developed which predicts the minor road left-turn volume threshold (y) above which a minor road left-turn lane may be considered and below which a minor road left-turn lane may not be necessary for a range of major road volumes (x). The critical delay to major road left-turning traffic was found to be 16 s/veh. Major road left-turn lane volume warrants were also determined based on this threshold delay value. The approach used in this study can serve as a guide that can be used by metropolitan and municipal road engineers to assess the need for left-turn lanes. Keywords: Unsignalized T-intersection, Left-turn, Warrants, Delay, Micro simulation, VISSIM
url http://www.sciencedirect.com/science/article/pii/S2095756417302441
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AT charlesanumadams volumewarrantsformajorandminorroadsleftturningtrafficlanesatunsignalizedtintersectionsacasestudyusingvissimmodelling
AT kwamekwakwaosei volumewarrantsformajorandminorroadsleftturningtrafficlanesatunsignalizedtintersectionsacasestudyusingvissimmodelling
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