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Citation |
Sacchi E, Sayed T, El-Basyouny K. Accid. Anal. Prev. 2014; 70C: 46-54. |
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Affiliation |
University of Alberta, Department of Civil and Environmental Engineering, Edmonton, AB, Canada T6G 2W2. Electronic address: karim.el-basyouny@ualberta.ca. |
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Copyright |
(Copyright © 2014, Elsevier Publishing) |
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DOI |
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PMID |
24690550 |
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Abstract |
Collision modification factors (CMFs) are considered the primary tools for estimating the effectiveness of safety treatments at road sites. Three main techniques are commonly used to estimate CMFs: the empirical Bayes (EB) method, the comparison-group (CG) method, and a combination of the EB and CG methods. CMF estimates from these techniques are usually provided with a measure of uncertainty of the estimate, in the form of standard error and confidence interval. However, representing CMFs as point estimates may not be adequate to explain how a safety countermeasure affects collision frequency over time and to evaluate the presence of novelty effects associated with the treatment. Therefore, the main goal of this study is to show how to overcome this drawback through the development of collision modification functions (CMFunctions) which incorporate changes over time for the treatment effectiveness, rather than using a single value. Within a fully Bayesian (FB) context, linear and non-linear intervention models, which acknowledge that the safety treatment effects do not always occur instantaneously but are spread over future time periods, provide a promising methodological framework for estimating CMFunctions with time trend. A case study is presented where the linear and non-linear intervention models were applied to estimate the effectiveness of the "Signal Head Upgrade Program" recently implemented in the city of Surrey (British Columbia, Canada). The results of the case study highlight the advantages of estimating CMFunctions with time trend and impact on the economic evaluation of safety countermeasures. Given the way future benefits are discounted to present values, the results of using a CMFunction can affect the cost effectiveness of safety countermeasures significantly. The results also showed the non-linear intervention models provide a more realistic trend where the treatment effect in the long-run converges to an everlasting treatment impact. Language: en |