Highlights Drivers’ average BPRT increases from 0.96 to 1.40s due to countdown timer. The Log-logistic AFT model is suitable to model driver’s BPRT without countdown timer. The Weibull AFT model is appropriate to model driver’s BPRT with countdown timer. Detrimental effect of countdown timer on driver’s BPRT appears to increase with vehicle’s yellow-onset distance to the stop line or deceleration rate. Negative influence of countdown timer on driver’s BPRT seems to decrease with vehicle’s yellow-onset speed.

    Abstract Countdown timers display the time left on the current signal, which makes drivers be more ready to react to the phase change. However, previous related studies have rarely explored the effects of countdown timer on driver’s brake perception-reaction time (BPRT) to yellow light. The goal of this study was therefore to characterize and model driver’s BPRT to yellow signal at signalized intersections with and without countdown timer. BPRT data for “first-to-stop” vehicles after yellow onset within the transitional zone were collected through on-site observation at six signalized intersections in Harbin, China. Statistical analysis showed that the observed 15th, 50th, and 85th percentile BPRTs without countdown timer were 0.52, 0.84, and 1.26s, respectively. The observed 15th, 50th, and 85th percentile BPRTs with countdown timer were 0.32, 1.20, and 2.52s, respectively. Log-logistic distribution appeared to best fit the BPRT without countdown timer, while Weibull distribution seemed to best fit the BPRT with countdown timer. After that, a Log-logistic accelerated failure time (AFT) duration model was developed to model driver’s BPRT without countdown timer, whereas a Weibull AFT duration model was established to model driver’s BPRT with countdown timer. Three significant factors affecting the BPRT identified in both AFT models included yellow-onset distance from the stop line, yellow-onset approach speed, and deceleration rate. No matter whether the presence of countdown timer or not, BPRT increased as yellow-onset distance to the stop line or deceleration rate increased, but decreased as yellow-onset speed increased. The impairment of driver’s BPRT due to countdown timer appeared to increase with yellow-onset distance to the stop line or deceleration rate, but decrease with yellow-onset speed. An increase in driver’s BPRT because of countdown timer may induce risky driving behaviors (i.e., stop abruptly, or even violate traffic signal), revealing a weakness of countdown timer in traffic safety aspect.


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    Title :

    Comparative analysis of driver’s brake perception-reaction time at signalized intersections with and without countdown timer using parametric duration models


    Contributors:
    Fu, Chuanyun (author) / Zhang, Yaping (author) / Bie, Yiming (author) / Hu, Liwei (author)

    Published in:

    Publication date :

    2015-07-07


    Size :

    13 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English