Your search keyword '"Chen, Yanyan"' showing total 2 results

1. Spatial relationships between alcohol outlet densities and drunk driving crashes: An empirical study of Tianjin in China.

Author

Wang, Shaohua, Chen, Yanyan, Huang, Jianling, Liu, Zhuo, Li, Jia, and Ma, Jianming

Subjects

*DRUNK driving, *ALCOHOL, *ALCOHOL drinking, *DEMOGRAPHIC characteristics, *TRANSPORTATION planning, *TRAFFIC regulations

Abstract

• Spatial empirical analysis is used to estimate the spatial effect between alcohol availability and alcohol-related crashes. • The SDM is found to be the optimal spatial model to characterize the relationship between alcohol outlets and crashes. • Population density and retail density are associated with an increase in alcohol-related crashes. • Dense population and hotels have spillover effects in adjacent zones and the space spillover effects should not be neglected. Introduction: Numerous studies have demonstrated the close relationship between alcohol availability and alcohol-related crashes. However, there is still a lack of spatial empirical analysis regarding this relationship, particularly in large cities of developing countries. Differences in alcohol outlets and drinking patterns in these cities may lead to quite different patterns of crash outcomes. Method: 3356 alcohol-related crashes were collected from the blood-alcohol test report of a forensic institution in Tianjin, China. Density of alcohol outlets such as retail locations, entertainment venues, restaurants, hotels, and companies were extracted based on 2114 Traffic Analysis Zones (TAZ) together with the residential and demographic characteristics. After applying the exploratory spatial data analysis, this research developed and compared the traditional Ordinary Least Square model (OLS), Spatial Lag Model (SLM), Spatial Error Model (SEM) and Spatial Durbin Model (SDM) to explore spatial effects of all the variables. Results: The results of incremental spatial autocorrelation show that the most significant distance threshold of alcohol-related roadway traffic crashes is 3 km. The SDM is found to be the optimal spatial model to characterize the relationship between alcohol outlets and crashes. The number of alcohol-involved traffic crashes is positively related to population density and retail density, but negatively related to the company density, hotel density, and residential density within the same TAZ. Meanwhile, dense population and hotels have reverse spillover effects in adjacent zones. Conclusions: The significant spatial direct effect and spillover effect of alcohol outlet densities on drunk driving crashes should not be neglected. These findings could help improve transportation planning, traffic law enforcement and traffic management for large cities in developing countries. [ABSTRACT FROM AUTHOR]

Published

2020

2. Macrolevel Traffic Crash Analysis: A Spatial Econometric Model Approach.

Author

Wang, Shaohua, Chen, Yanyan, Huang, Jianling, Chen, Ning, and Lu, Yao

Subjects

*ECONOMETRIC models, *GEOGRAPHIC spatial analysis, *ROAD interchanges & intersections, *AUTOREGRESSION (Statistics), *POPULATION density, *EUCLIDEAN distance, *LEAST squares

Abstract

This study presents a spatial approach for the macrolevel traffic crashes analysis based on point-of-interest (POI) data and other related data from an open source. The spatial autoregression is explored by Moran's I Index with three spatial weight features (i.e., (a) Rook, (b) Queen, and (c) Euclidean distance). The traditional Ordinary Least Square (OLS) model, the Spatial Lag Model (SLM), the Spatial Error Model (SEM), and the Spatial Durbin Model (SDM) were developed to describe the spatial correlations among 2,114 Traffic Analysis Zones (TAZs) of Tianjin, one of the four municipalities in China. Results of the models indicated that the SDM with the Rook spatial weight feature is found to be the optimal spatial model to characterize the relationship of various variables and crashes. The results show that population density, consumption density, intersection density, and road density have significantly positive influence on traffic crashes, whereas company density, hotel density, and residential density have significant but negative effects in the local TAZ. The spillover effects coefficient of population density and road density are positive, indicating that the increase of these variables in the surrounding TAZs will lead to the increase of crashes in the target zone. The impacts of company density and hotel density are just the opposite. In general, the research findings can help transportation planners and managers better understand the general characteristics of traffic crashes and improve the situation of traffic security. [ABSTRACT FROM AUTHOR]

Published

2019