Understanding how relationships between crash frequency and correlates vary for multilane rural highways: estimating geographically and temporally weighted regression models

Mohammadnazar, Amin; Mahdinia, Iman; Ahmad, Numan; Khattak, Asad J.; Liu, Jun

doi:10.1016/j.aap.2021.106146

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Understanding how relationships between crash frequency and correlates vary for multilane rural highways: estimating geographically and temporally weighted regression models
Citation	Mohammadnazar A, Mahdinia I, Ahmad N, Khattak AJ, Liu J. Accid. Anal. Prev. 2021; ePub: ePub.
Copyright	(Copyright © 2021, Elsevier Publishing)
DOI	10.1016/j.aap.2021.106146
PMID	unavailable
Abstract	Safety Performance Functions (SPFs) are critical tools in the management of highway safety projects. SPFs are used to predict the average number of crashes per year at a location, such as a road segment or an intersection. The Highway Safety Manual (HSM) provides default safety performance functions (SPFs), but it is recommended that states in the U.S. develop jurisdiction-specific SPFs using local crash data. To do this for the state of Tennessee, crash and road inventory data were integrated for multi-lane rural highway segments for the years 2013-2017. In addition to developing SPFs similar to those contained in the HSM, this study applied a new methodology to capture variation in crashes in both space and time. Specifically, Geographically and Temporally Weighted Regression (GTWR) models for the localization of SPFs were developed. The new methodology incorporates temporal aspects of crashes in the models because the impact of a specific variable on crash frequency may vary over time due to several reasons. RESULTS indicate that GTWR models remarkably outperform the traditional regression models by capturing spatio-temporal heterogeneity. Most parameter estimates were found to vary substantially across space and time. In other words, the association of contributing variables with the number of crashes can vary from one region or period of time to another. This finding weakens the idea of transferring default SPFs to other states and applying a single localized SPF to all regions of a state. Enabled by growing computational power, these results emphasize the importance of accounting for spatial and temporal heterogeneity and developing highly localized SPFs. The methodology of this study can be used by researchers to follow the temporal trend and location of critical factors to identify sites for safety improvements. Language: en
Keywords	Geographically and temporally weighted regression; Negative binomial; Safety performance function; Spatio-temporal