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AuthorQinaat, Hussain
AuthorAlhajyaseen, Wael K.M.
AuthorBrijs, Kris
AuthorPirdavani, Ali
AuthorBrijs, Tom
Available date2021-02-25T11:26:48Z
Publication Date2020-01-31
Publication NameAccident Analysis & Prevention
Identifierhttp://dx.doi.org/10.1016/j.aap.2019.105349
CitationHussain, Q., Alhajyaseen, W. K., Brijs, K., Pirdavani, A., & Brijs, T. (2020). Innovative countermeasures for red light running prevention at signalized intersections: A driving simulator study. Accident Analysis & Prevention, 134, 105349.
ISSN0001-4575
URIhttps://www.sciencedirect.com/science/article/pii/S0001457519308449
URIhttp://hdl.handle.net/10576/17814
AbstractThe change interval, which includes the yellow and all-red times, plays a crucial role in the safety and operation of signalized intersections. During this interval, drivers not only need to decide to stop or go but also have to interact with drivers both in front and behind, trying to avoid conflicting decisions. Red light running and inconsistent stopping behavior may increase the risk for angular and rear-end crashes. This study aims to investigate the effect of different innovative countermeasures on red light running prevention and safe stopping behavior at signalized intersections. Five different conditions were tested inviting sixty-seven volunteers with a valid driving license. The conditions include a default traffic signal setting (control condition), flashing green signal setting (F-green), red LED ground lights integrated with a traffic signal (R-LED), yellow interval countdown variable message sign (C-VMS), and red light running detection camera warning gantry (RW-gantry). Drivers in each condition were exposed to two different situations based on the distance from the stop line. In the first situation, drivers were located in the indecision zone while in the second situation they were located in the likely stopping zone. A series of logistic regression analyses and linear mixed models were conducted to investigate the overall safety effects of the different countermeasures. The probability of red light running (RLR) was significantly reduced for R-LED in both analyses (i.e. in the total sample, and in the sample of crossed vehicles). Moreover, a clearly inconsistent stopping behavior was observed for the flashing green condition. Furthermore, a unit increase in speed (kph) at the onset of yellow interval significantly increases the probability of RLR by 5.3 %.The study showed that R-LED was the most effective solution for improving red light running prevention and encouraging a consistent stopping behavior at the intersection. In conclusion, the R-LED and the RW-gantry treatments are recommended as effective tools to improve safety at signalized intersections.
Languageen
PublisherElsevier
SubjectRed light running
SubjectSignalized intersection
SubjectDynamic ground lights
SubjectCountdown signal
SubjectDilemma zone
Subjectvariable message sign
TitleInnovative countermeasures for red light running prevention at signalized intersections: A driving simulator study
TypeArticle
Volume Number134


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