Your search keyword '"Liu, HaiYue"' showing total 2 results

1. Bayesian spatial correlation, heterogeneity and spillover effect modeling for speed mean and variance on urban road networks.

Author

Zhou, Yue, Jiang, Xinguo, Fu, Chuanyun, Liu, Haiyue, and Zhang, Guopeng

Subjects

*SPEED, *HETEROGENEITY, *CITY traffic, *AUTOREGRESSIVE models, *MULTISCALE modeling

Abstract

• Spatial effects on modeling speed mean and variance at road level are investigated. • Spatial correlation, spatial heterogeneity, and spillover effect are considered. • SAR/ICAR, random parameters, and spatially lagged covariates approaches are used. • The model capturing three spatial effects performs better for fitting speed mean. • The random parameters ICAR model is the best for fitting speed variance. Analyzing speed mean and variance is vital to safety management in urban roadway networks. However, modeling speed mean and variance on structured roads could be influenced by the spatial effects, which are rarely addressed in the existing studies. The inadequacy may lead to biased conclusions when considering vehicle speed as a surrogate safety measure. The current study focuses on developing a Bayesian modeling approach with three types of spatial effects, i.e., spatial correlation, spatial heterogeneity, and spillover effect. To capture the spatial correlation, the study employs the intrinsic conditional autoregressive (ICAR) models, spatial lag models (SLM), and spatial error models (SEM). Spatial heterogeneity and spillover effect are considered by the random parameters approach and spatially lagged covariates (SLCs). Speed data are collected from the float cars running on 134 urban arterials in Chengdu, China. The results indicate that the random parameters ICAR model with SLCs (RPICAR-SLC) outperforms others in terms of goodness-of-fit, accuracy, and efficiency for modeling speed mean, while the random parameters ICAR model (RPICAR) is the best for modeling speed variance. Moreover, RPICAR-SLC and RPICAR models are beneficial to address spatial correlation of residuals, explaining the unobserved influence among the observations, and are less likely to cause biased or overestimated parameters. The study also discusses how traffic conditions, road characteristics, traffic management strategies, and facilities on roadway networks influence speed mean and variance. The findings highlight the importance of multi-type spatial effects on modeling speed mean and variance along the structured roadways. [ABSTRACT FROM AUTHOR]

Published

2022

2. Operational factor analysis of the aggressive taxi speeders using random parameters Bayesian LASSO modeling approach.

Author

Zhou, Yue, Jiang, Xinguo, Fu, Chuanyun, and Liu, Haiyue

Subjects

*OPERATIONS research, *FUZZY clustering technique, *TRAFFIC safety, *FACTOR analysis, *TAXICAB drivers, *MULTICOLLINEARITY

Abstract

• Aggressive taxi speeders include moderate speeder (MS) and belligerent speeder (BS). • A random parameters Bayesian binary logistic LASSO modeling approach is proposed. • The unobserved heterogeneity among different taxi speeders is captured. • Several operational factors affecting aggressive taxi speeders are investigated. • The operational factors induce higher probability of being BS than MS. Partial taxi speeders are observed with both high speeding frequency and severity (range). They thereby can be viewed as aggressive speeders whose behaviors may result in more hazards than others. Among the factors contributing to taxi speeding, the operational factors are proven to be deterministic. However, previous studies mainly investigate the operational factors of taxi speeding frequency, which fail to comprehensively unveil the impact of factors on speeders, especially for aggressive speeders. This study intends to disclose the operational factors affecting the aggressive taxi speeders with the random parameters Bayesian least absolute shrinkage and selection operator (LASSO) modeling approach. Taxi speeding behaviors and several operational factors are extracted from taxi GPS trajectory data in Chengdu, China. Based on the hourly speeding frequency and average speeding severity of each speeder, the fuzzy C-means clustering algorithm is employed to categorize taxi speeders into three cohorts: restrained speeder (RS), moderate speeder (MS), and belligerent speeder (BS). Compared to RS, MS and BS are treated as the aggressive taxi speeders. Several binary logistic models are developed with RS as the reference category. The random parameters Bayesian binary logistic LASSO model that captures the unobserved heterogeneity and tackles the multicollinearity is found to be the best fit model to identify the significant operational factors. The results indicate that aggressive taxi speeders are linked to longer daily driving distance and cruise distance, shorter delivery time, higher hourly income, driving at night, and driving on low-speed limit roads. However, intensive lane-changes and sufficient daily naps do not contribute to aggressive taxi speeders. Moreover, BS is more sensitive to the operational factors than MS. This study stresses the necessity of implementing speeder classification in taxi driver management and conceiving countermeasures considering the operational factors which are significantly associated with the aggressive taxi speeders. [ABSTRACT FROM AUTHOR]

Published

2021