Highlights Horizontal curve attributes were extracted. First Order Reliability Method was used to estimate the probability of noncompliance. Structural Equation Modelling was used to model several relationships simultaneously. Curve attributes found to have a direct and indirect influence on collisions. As the probability of non-compliance increases, the expected collisions increase.

    Abstract Reliability analysis has been advocated as a robust methodology to quantify the risk (known as the probability of non-compliance, Pnc) associated with design limitations such as insufficient sight distance on horizontal curves. This risk represents the probability that the current design (e.g., available sight distance) would fail to meet the requirements of the driving population (e.g., required sight distance). Although previous work has quantified the risk and established links between Pnc and safety, Pnc remains a statistical measure that is not informative enough to roadway designers. To overcome this limitation, the impacts of geometric design attributes on the Pnc as well as the direct and indirect (through the impacts on Pnc) impacts of those attributes on safety need to be modelled and understood. To achieve the aforementioned objective, this paper proposes the adoption of Structural Equation Modelling (SEM) to simultaneously model the relationships mentioned above using data collected on horizontal curves in Alberta, Canada. Light Detection And Ranging (LiDAR) data was first used to extract curve information and assess the 3D available sight distance on 244 curved highway segments. Reliability analysis was then used to quantify the Pnc associated with each curved segment. SEM was then used to test the impacts of curve geometric and traffic attributes on Pnc as well as the direct and indirect impacts those variables have on collision frequency. The results showed that Pnc, curve length, and traffic volume all had statistically significant effects on collision frequency. Curve attributes such as the curve’s deflection angle and chord length had statistically significant impacts on Pnc. Both curve deflection angle and the chord length were also found to have an indirect influence on collisions, which was mediated through Pnc. The findings emphasize the importance of considering other curve attributes when designing horizontal curves instead of focusing entirely on the curve radius. The findings of this research provide insights into the indirect impacts of curve attributes of horizontal curves on safety. This could help designers consider curve features that have the highest impacts on non-compliance and safety levels.


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    Title :

    Towards a more inclusive and safe design of horizontal curves: Exploring the association between curve features, reliability measures, and safety


    Contributors:


    Publication date :

    2021-01-26




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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