Xi Lu
China Academy of Transportation Science, MOT
Zhuanglin Ma
Steven I-Jy Chien
New Jersey Institute of Technology, Chang'an University
Ying Xiong
Xi’an Traffic Information Center
Pedestrian injury in crashes at intersections often results from complex interaction among various factors. The factor identification is a critical task for understanding the causes and improving the pedestrian safety. A total of 2,614 crash records at signalized and non-signalized intersections were applied. A Partial Proportional Odds (PPO) model was developed to examine the factors influencing Pedestrian Injury Severity (PIS) because it can accommodate the ordered response nature of injury severity. An elasticity analysis was conducted to quantify the marginal effects of contributing factors on the likelihood of PIS. For signalized intersections, seven explanatory variables significantly affect the likelihood of PIS, in which five explanatory variables violate the Proportional Odds Assumption (POA). Local driver, truck, holiday, clear weather, and hit-and-run lead to higher likelihood of severer PIS. For non-signalized intersections, six explanatory variables were found significant to the PIS, in which three explanatory variables violate the POA. Young and adult drivers, senior pedestrian, bus/van, divided road, holiday, and darkness tend to increase the likelihood of severer PIS. The vehicles of large size and heavy weight (e.g. truck, bus/van) are significant factors to the PIS at both signalized and non-signalized intersections. The proposed PPO model has demonstrated its effectiveness in identifying the effects of contributing factors on the PIS.
National Highway Traffic Safety Administration. Fatality Analysis Reporting System (FARS) Encyclopedia. Washington, D.C.; 2018. Available from: https://www-fars.nhtsa.dot.gov/Main/index.aspx [Accessed June 2018].
Ho G, Scialfa CT, Caird JK, Graw T. Visual search for traffic signs: The effects of clutter, luminance, and aging. Human Factors. 2001;43(2): 194-207.
Li Q, Qiao F, Wang X, Yu L. Drivers' smart advisory system improves driving performance at STOP sign intersections. Journal of Traffic and Transportation Engineering (English Edition). 2017;4(3): 262-271.
Oh C, Kang Y, Kim B, Kim W. Analysis of pedestrian-vehicle crashes in Korea: Focused on developing probabilistic pedestrian fatality model. Proceedings of the 84th Annual Meeting of the Transportation Research Board, Washington, D.C.; 2005.
Sarkar S, Richard T, Hunt J. Logistic regression model of risk of fatality in vehicle-pedestrian crashes on national highways in Bangladesh. Transportation Research Record. 2011;2264: 128
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