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A New Methodology for Before–After Safety Assessment Using Survival Analysis and Longitudinal Data

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  • Kun Xie
  • Kaan Ozbay
  • Hong Yang
  • Di Yang

Abstract

The widely used empirical Bayes (EB) and full Bayes (FB) methods for before–after safety assessment are sometimes limited because of the extensive data needs from additional reference sites. To address this issue, this study proposes a novel before–after safety evaluation methodology based on survival analysis and longitudinal data as an alternative to the EB/FB method. A Bayesian survival analysis (SARE) model with a random effect term to address the unobserved heterogeneity across sites is developed. The proposed survival analysis method is validated through a simulation study before its application. Subsequently, the SARE model is developed in a case study to evaluate the safety effectiveness of a recent red‐light‐running photo enforcement program in New Jersey. As demonstrated in the simulation and the case study, the survival analysis can provide valid estimates using only data from treated sites, and thus its results will not be affected by the selection of defective or insufficient reference sites. In addition, the proposed approach can take into account the censored data generated due to the transition from the before period to the after period, which has not been previously explored in the literature. Using individual crashes as units of analysis, survival analysis can incorporate longitudinal covariates such as the traffic volume and weather variation, and thus can explicitly account for the potential temporal heterogeneity.

Suggested Citation

  • Kun Xie & Kaan Ozbay & Hong Yang & Di Yang, 2019. "A New Methodology for Before–After Safety Assessment Using Survival Analysis and Longitudinal Data," Risk Analysis, John Wiley & Sons, vol. 39(6), pages 1342-1357, June.
    • Handle: RePEc:wly:riskan:v:39:y:2019:i:6:p:1342-1357
    DOI: 10.1111/risa.13251
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    References listed on IDEAS

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    1. Kun Xie & Kaan Ozbay & Abdullah Kurkcu & Hong Yang, 2017. "Analysis of Traffic Crashes Involving Pedestrians Using Big Data: Investigation of Contributing Factors and Identification of Hotspots," Risk Analysis, John Wiley & Sons, vol. 37(8), pages 1459-1476, August.
    2. David J. Spiegelhalter & Nicola G. Best & Bradley P. Carlin & Angelika Van Der Linde, 2002. "Bayesian measures of model complexity and fit," Journal of the Royal Statistical Society Series B, Royal Statistical Society, vol. 64(4), pages 583-639, October.
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    Cited by:

    1. Robert J.R. Elliott & Viet Nguyen-Tien & Eric Strobl & Chengyu Zhang, 2024. "Estimating the longevity of electric vehicles: What do 300 million MOT test results tell us?," CEP Discussion Papers dp1972, Centre for Economic Performance, LSE.
    2. Zhai, Guocong & Xie, Kun & Yang, Di & Yang, Hong, 2022. "Assessing the safety effectiveness of citywide speed limit reduction: A causal inference approach integrating propensity score matching and spatial difference-in-differences," Transportation Research Part A: Policy and Practice, Elsevier, vol. 157(C), pages 94-106.
    3. Xie, Kun & Ozbay, Kaan & Yang, Di & Yang, Hong & Zhu, Yuan, 2021. "Modeling lane-specific breakdown probabilities at freeway diverge sections," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 561(C).

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