探讨不利路面条件下不同车辆碰撞位置驾驶员伤害严重程度影响因素的变化及时间不稳定性

IF 12.5 1区 工程技术 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Qiaoqiao Ren, Min Xu
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引用次数: 0

摘要

恶劣的路面状况是导致交通事故中严重人员伤亡和财产损失的重要因素,迫切需要揭示路面恶化和车辆碰撞位置对驾驶员伤害严重程度的相互作用机制。本文建立了均值(和方差)异质性的三组随机参数logit模型,以研究在恶劣天气条件下发生的单车辆碰撞中,不同损伤位置影响驾驶员伤害严重程度结果的决定因素的未观察到的异质性和时间稳定性。研究使用了俄亥俄州从2015年1月1日至2017年12月31日收集的三年碰撞数据集。结果变量包括无伤、轻伤和重伤三种碰撞损伤严重程度类别,碰撞特征、驾驶员特征、时间特征、车辆特征、道路特征和环境特征作为影响驾驶员损伤严重程度的潜在预测因素。此外,使用似然比检验和边际效应来评估解释变量的时间不稳定性和影响位置不可转移性。结果表明,模型估计的总体时间和地点不稳定,而几个决定因素对伤害严重程度结果有一致的影响,如涉及动物的碰撞、老司机、安全约束的使用、女性司机、身体受损的司机和有保险的车辆。本研究还通过样本外预测和样本内观测之间的概率差异,量化和表征了年与年之间和地点与地点之间变化的净效应。随着时间的推移,在不同撞击位置的概率差异中,分布特征(平均值、偏度、峰度和预测精度)的变化幅度和不一致方向被捕获。此外,研究表明碰撞位置的不可转移性比时间不稳定性对预测精度的影响更大。研究结果可能为交通管理人员制定有效的安全策略提供参考,以更好地保护司机免受道路相关事故的伤害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring variations and temporal instability of factors affecting driver injury severities between different vehicle impact locations under adverse road surface conditions

The adverse road surface condition has been identified as an important factor resulting in serious casualties and property losses in traffic accidents, and there is a tremendous need to uncover the interaction mechanism between deteriorating road surfaces and vehicle impact locations on the driver injury severity at a disaggregate level. In this paper, three groups of random parameters logit models with heterogeneity in means (and variances) are developed to investigate the unobserved heterogeneity and temporal stability of the determinants affecting driver injury severity outcomes across different damage locations among single-vehicle crashes that occurred under adverse weather conditions. A three-year crash dataset gathered from January 1, 2015, to December 31, 2017, in Ohio is utilized. Three crash injury severity categories including no injury, minor injury, and severe injury are identified as outcome variables, while crash characteristics, driver characteristics, temporal characteristics, vehicle characteristics, roadway characteristics, and environment characteristics are regarded as potential predictors influencing driver injury severities. Additionally, likelihood ratio tests and marginal effects are used to assess the temporal instability and impact location non-transferability of the explanatory variables. The results indicate an overall temporal and locational instability of model estimates while several determinants are identified to have consistent effects on injury severity outcomes such as animal-involved collisions, old drivers, safety restraint usage, female drivers, physically impaired drivers, and vehicles with insurance. This study also quantifies and characterizes the net effect of year-to-year and location-to-location shifts through probability differences between out-of-sample predictions and within-sample observations. Varying magnitudes and inconsistent directions of distribution characteristics (mean, skewness, kurtosis, and prediction accuracy) in the probability differences across different impact locations over time are captured. Moreover, this study indicates that the non-transferability of collision locations has a greater impact on the prediction accuracy than the temporal instability. The findings could potentially serve as a reference for transportation administrators to formulate effective safety strategies to better protect drivers from adverse-road-related crashes.

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来源期刊
CiteScore
22.10
自引率
34.10%
发文量
35
审稿时长
24 days
期刊介绍: Analytic Methods in Accident Research is a journal that publishes articles related to the development and application of advanced statistical and econometric methods in studying vehicle crashes and other accidents. The journal aims to demonstrate how these innovative approaches can provide new insights into the factors influencing the occurrence and severity of accidents, thereby offering guidance for implementing appropriate preventive measures. While the journal primarily focuses on the analytic approach, it also accepts articles covering various aspects of transportation safety (such as road, pedestrian, air, rail, and water safety), construction safety, and other areas where human behavior, machine failures, or system failures lead to property damage or bodily harm.
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