Abstract
Statistical modeling of historical crash data can provide essential insights to safety managers for proactive highway safety management. While numerous studies have contributed to the advancement from the statistical methodological front, minimal research efforts have been dedicated to real-time monitoring of highway safety situations. This study advocates the use of statistical monitoring methods for real-time highway safety surveillance using three years of crash data for rural highways in Saudi Arabia. First, three well-known count data models (Poisson, negative binomial, and Conway–Maxwell–Poisson) are applied to identify the best fit model for the number of crashes. Conway–Maxwell–Poisson was identified as the best fit model, which was used to find the significant explanatory variables for the number of crashes. The results revealed that the road type and road surface conditions significantly contribute to the number of crashes. From the perspective of real-time highway safety monitoring, generalized linear model (GLM)-based exponentially weighted moving average (EWMA) and cumulative sum (CUSUM) control charts are proposed using the randomized quantile residuals and deviance residuals of Conway–Maxwell (COM)–Poisson regression. A detailed simulation-based study is designed for predictive performance evaluation of the proposed control charts with existing counterparts (i.e., Shewhart charts) in terms of the run-length properties. The study results showed that the EWMA type control charts have better detection ability compared with the CUSUM type and Shewhart control charts under small and/or moderate shift sizes. Finally, the proposed monitoring methods are successfully implemented on actual traffic crash data to highlight the efficacy of the proposed methods. The outcome of this study could provide the analysts with insights to plan sound policy recommendations for achieving desired safety goals.
Highlights
Traffic collisions account for over 1.35 million annual fatalities and approximately50 million injuries worldwide, and are predicted to become the fifth leading cause of death by the year 2030 [1]
To fill this research gap, this study proposes the application of the statistical process control (SPC) method for real-time monitoring of crash data in the Kingdom of Saudi Arabia
It is clearly seen that the detection ability of the QR-COM–P exponentially weighted moving average (EWMA) chart increases with the decrease of λ
Summary
Traffic collisions account for over 1.35 million annual fatalities and approximately. Abdel-Aty [8] investigated the risk factors for crash occurrence on urban four-lane divided roadway segments in Riyadh, Saudi Arabia Factors such as annual average daily traffic, speed limit, segment length, and driveway density were found to increase the likelihood of fatal and injury crashes. Crash frequency models developed using aggregated data are designed to yield the prediction results on average data over a more extended period of time that may lead to loss of potentially useful information about some important explanatory variables. To fill this research gap, this study proposes the application of the statistical process control (SPC) method for real-time monitoring of crash data in the Kingdom of Saudi Arabia. This study intends to design EWMA and CUSUM type GLM-based control charts using the deviance and randomized quantile residuals of the COM–Poisson regression model.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
