Your search keyword '"Xiaoyue Cathy Liu"' showing total 3 results

1. Impact of roadway geometric features on crash severity on rural two-lane highways

Author

Xiaoyue Cathy Liu, Nima Haghighi, Richard J. Porter, and Guohui Zhang

Subjects

Risk, Rural Population, Automobile Driving, Offset (computer science), Computer science, Human Factors and Ergonomics, Crash, Level design, Environment, 0502 economics and business, Statistics, Range (statistics), Humans, 0501 psychology and cognitive sciences, Safety, Risk, Reliability and Quality, 050107 human factors, 050210 logistics & transportation, Driveway, 05 social sciences, Multilevel model, Public Health, Environmental and Occupational Health, Accidents, Traffic, Geometric design, Logistic Models, Environment Design, Ordered logit, Illinois, Safety, human activities

Abstract

This study examines the impact of a wide range of roadway geometric features on the severity outcomes of crashes occurred on rural two-lane highways. We argue that crash data have a hierarchical structure which needs to be addressed in modeling procedure. Moreover, most of previous studies ignored the impact of geometric features on crash types when developing crash severity models. We hypothesis that geometric features are more likely to determine crash type, and crash type together with other occupant, environmental and vehicle characteristics determine crash severity outcome. This paper presents an application of multilevel models to successfully capture both hierarchical structure of crash data and indirect impact of geometric features on crash severity. Using data collected in Illinois from 2007 to 2009, multilevel ordered logit model is developed to quantify the impact of geometric features and environmental conditions on crash severity outcome. Analysis results revealed that there is a significant variation in severity outcomes of crashes occurred across segments which verifies the presence of hierarchical structure. Lower risk of severe crashes is found to be associated with the presence of 10-ft lane and/or narrow shoulders, lower roadside hazard rate, higher driveway density, longer barrier length, and shorter barrier offset. The developed multilevel model offers greater consistency with data generating mechanism and can be utilized to evaluate safety effects of geometric design improvement projects.

Published

2017

2. Driver injury severity outcome analysis in rural interstate highway crashes: a two-level Bayesian logistic regression interpretation

Author

Guohui Zhang, Hongzhi Guan, Yanyan Chen, Hongwei Huang, Yusheng Ci, Jianming Ma, Xiaoyue Cathy Liu, and Cong Chen

Subjects

Adult, Male, Rural Population, Engineering, Automobile Driving, China, Adolescent, Poison control, Human Factors and Ergonomics, Crash, Logistic regression, Occupational safety and health, Odds, Transport engineering, 0502 economics and business, Injury prevention, Humans, 0501 psychology and cognitive sciences, Safety, Risk, Reliability and Quality, 050107 human factors, 050210 logistics & transportation, business.industry, 05 social sciences, Public Health, Environmental and Occupational Health, Accidents, Traffic, Human factors and ergonomics, Bayes Theorem, Seat Belts, Middle Aged, Models, Theoretical, Logistic Models, Road surface, Female, Safety, business, human activities

Abstract

There is a high potential of severe injury outcomes in traffic crashes on rural interstate highways due to the significant amount of high speed traffic on these corridors. Hierarchical Bayesian models are capable of incorporating between-crash variance and within-crash correlations into traffic crash data analysis and are increasingly utilized in traffic crash severity analysis. This paper applies a hierarchical Bayesian logistic model to examine the significant factors at crash and vehicle/driver levels and their heterogeneous impacts on driver injury severity in rural interstate highway crashes. Analysis results indicate that the majority of the total variance is induced by the between-crash variance, showing the appropriateness of the utilized hierarchical modeling approach. Three crash-level variables and six vehicle/driver-level variables are found significant in predicting driver injury severities: road curve, maximum vehicle damage in a crash, number of vehicles in a crash, wet road surface, vehicle type, driver age, driver gender, driver seatbelt use and driver alcohol or drug involvement. Among these variables, road curve, functional and disabled vehicle damage in crash, single-vehicle crashes, female drivers, senior drivers, motorcycles and driver alcohol or drug involvement tend to increase the odds of drivers being incapably injured or killed in rural interstate crashes, while wet road surface, male drivers and driver seatbelt use are more likely to decrease the probability of severe driver injuries. The developed methodology and estimation results provide insightful understanding of the internal mechanism of rural interstate crashes and beneficial references for developing effective countermeasures for rural interstate crash prevention.

Published

2016

3. Mixed logit model-based driver injury severity investigations in single- and multi-vehicle crashes on rural two-lane highways

Author

Feng Chen, Guohui Zhang, Susan M. Bogus, Xiaoyue Cathy Liu, Hua Wang, and Qiong Wu

Subjects

Truck, Adult, Male, Rural Population, Adolescent, Alcohol Drinking, New Mexico, Poison control, Human Factors and Ergonomics, Crash, macromolecular substances, Occupational safety and health, Transport engineering, Young Adult, Mixed logit, Overtaking, Environmental health, Injury prevention, Medicine, Humans, Safety, Risk, Reliability and Quality, Weather, Lighting, Aged, Trauma Severity Indices, business.industry, Public Health, Environmental and Occupational Health, Accidents, Traffic, Human factors and ergonomics, Seat Belts, Middle Aged, Logistic Models, Wounds and Injuries, Environment Design, Female, business, human activities, Alcoholic Intoxication

Abstract

Crashes occurring on rural two-lane highways are more likely to result in severe driver incapacitating injuries and fatalities. In this study, mixed logit models are developed to analyze driver injury severities in single-vehicle (SV) and multi-vehicle (MV) crashes on rural two-lane highways in New Mexico from 2010 to 2011. A series of significant contributing factors in terms of driver behavior, weather conditions, environmental characteristics, roadway geometric features and traffic compositions, are identified and their impacts on injury severities are quantified for these two types of crashes, respectively. Elasticity analyses and transferability tests were conducted to better understand the models’ specification and generality. The research findings indicate that there are significant differences in causal attributes determining driver injury severities between SV and MV crashes. For example, more severe driver injuries and fatalities can be observed in MV crashes when motorcycles or trucks are involved. Dark lighting conditions and dusty weather conditions are found to significantly increase MV crash injury severities. However, SV crashes demonstrate different characteristics influencing driver injury severities. For example, the probability of having severe injury outcomes is higher when vans are identified in SV crashes. Drivers’ overtaking actions will significantly increase SV crash injury severities. Although some common attributes, such as alcohol impaired driving, are significant in both SV and MV crash severity models, their effects on different injury outcomes vary substantially. This study provides a better understanding of similarities and differences in significant contributing factors and their impacts on driver injury severities between SV and MV crashes on rural two-lane highways. It is also helpful to develop cost-effective solutions or appropriate injury prevention strategies for rural SV and MV crashes.

Published

2014