Abstract
This study aims to explore factors affecting passenger car and truck driver injury severity in passenger car-truck crashes. Police-reported crash data from 2007 to 2017 in Canada are collected. Two-vehicle crashes involving one truck and one passenger car are extracted for modeling. Different injury severities are not equally represented. To address the data imbalance issue, this study applies four different data imbalance treatment approaches, including over-sampling, under-sampling, a hybrid method, and a cost-sensitive learning method. To test the performances of different classifiers, five classification models are used, including multinomial logistic regression, Naive Bayes, Classification and Regression Tree, support vector machine, and eXtreme Gradient Boosting (XGBoost). In both the passenger car driver and truck driver injury severity analysis, XGBoost combined with cost-sensitive learning generates the best results in terms of G-mean, area under the curve, and overall accuracy. Additionally, the Shapley Additive Explanations (SHAP) approach is adopted to interpret the result of the best-performing model. Most of the explanatory variables have similar effects on passenger car and truck driver fatality risks. Nevertheless, six variables exhibit opposite effects, including the age of the passenger car driver, crash hour, the passenger car age, road surface condition, weather condition and the truck age. Results of this study could provide some valuable insights for improving truck traffic safety. For instance, properly installing traffic control devices could be an effective way to reduce fatality risks in passenger car-truck crashes. Besides, passenger car drivers should be extremely cautious when driving between midnight to 6 am on truck corridors.
Highlights
As the dominant mode of freight transportation in North American, trucking plays an important role in commodity flow and economic vitality
This study focused on the geometric characteristics of expressways and proposed several road design suggestions to alleviate truck crash severity
Based on the results of random parameters logit models, this study found that the effects of factors influencing injury severities in truck crashes were unstable from year to year and across daily time periods
Summary
As the dominant mode of freight transportation in North American, trucking plays an important role in commodity flow and economic vitality. According to the 2017 Commodity Flow Survey conducted by the U.S Department of Transportation, trucks move 73.0% of all goods by value, 71.5% by weight, and 41.6% by ton-miles [1]. The considerable volume of truck traffic has brought some regrettable safety issues. Compared to other types of vehicles, trucks have some unique characteristics, such as heavier gross weight, larger vehicle size, and larger blind spot area, which might increase the risk of severe crashes. Traffic Safety Administration (NHTSA), there were 4,761 people killed in crashes involving large trucks in 2017, a 12% increase from 2008 [2]. The involvement rate of large trucks in injury crashes was 31 per 100 million large-truck miles traveled in 2015, a 48% increase from 2008
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