Investigating Influence of Segmentation in Estimating Safety Performance Functions for Roadway Sections

Safety performance functions (SPFs) are crucial to science-based road safety management. Success in developing and applying SPFs depends fundamentally on two key factors: the validity of the statistical inferences for the available data and on how well the data can be organized into distinct homogenous entities. The latter aspect plays a key role in the identification and treatment of road sections or corridors with problems related to safety. Indeed, the segmentation of a road network could be especially critical in the development of SPFs that could be used in safety management for roadway types, such as motorways (freeways in North America), that have a large number of variables that could result in very short segments if these are desired to be homogeneous. This consequence, from an analytical point of view, can be a problem when the location of crashes is not precise and when there is an over abundance of segments with zero crashes. Lengthening the segments for developing and applying SPFs can mitigate this problem, but at a sacrifice of homogeneity. This paper seeks to address this dilemma by investigating five approaches for segmentation for motorways, using sample data from Italy. The best results were obtained for the segmentation based on two curves and two tangents within a segment and the segmentation with fixed length. The segmentation characterized by a constant value of all original variables inside each segment was the poorest approach by all measures.

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