Use of empirical and full Bayes before-after approaches to estimate the safety effects of roadside barriers with different crash conditions

Park, Juneyoung; Abdel-Aty, Mohamed Ahmed; Lee, Jaeyoung

doi:10.1016/j.jsr.2016.06.002

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Use of empirical and full Bayes before-after approaches to estimate the safety effects of roadside barriers with different crash conditions
Citation	Park J, Abdel-Aty MA, Lee J. J. Saf. Res. 2016; 58: 31-40.
Affiliation	Department of Civil, Environmental and Construction Engineering, University of Central Florida, Orlando, Florida 32816-2450, USA. Electronic address: jaeyoung@knights.ucf.edu.
Copyright	(Copyright © 2016, U.S. National Safety Council, Publisher Elsevier Publishing)
DOI	10.1016/j.jsr.2016.06.002
PMID	27620932
Abstract	INTRODUCTION: Although many researchers have estimated the crash modification factors (CMFs) for specific treatments (or countermeasures), there is a lack of prior studies that have explored the variation of CMFs. Thus, the main objectives of this study are: (a) to estimate CMFs for the installation of different types of roadside barriers, and (b) to determine the changes of safety effects for different crash types, severities, and conditions. METHOD: Two observational before-after analyses (i.e. empirical Bayes (EB) and full Bayes (FB) approaches) were utilized in this study to estimate CMFs. To consider the variation of safety effects based on different vehicle, driver, weather, and time of day information, the crashes were categorized based on vehicle size (passenger and heavy), driver age (young, middle, and old), weather condition (normal and rain), and time difference (day time and night time). RESULTS: The results show that the addition of roadside barriers is safety effective in reducing severe crashes for all types and run-off roadway (ROR) crashes. On the other hand, it was found that roadside barriers tend to increase all types of crashes for all severities. The results indicate that the treatment might increase the total number of crashes but it might be helpful in reducing injury and severe crashes. In this study, the variation of CMFs was determined for ROR crashes based on the different vehicle, driver, weather, and time information. PRACTICAL APPLICATIONS: Based on the findings from this study, the variation of CMFs can enhance the reliability of CMFs for different roadway conditions in decision making process. Also, it can be recommended to identify the safety effects of specific treatments for different crash types and severity levels with consideration of the different vehicle, driver, weather, and time of day information. Copyright © 2016 Elsevier Ltd and National Safety Council. All rights reserved. Language: en