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原文传递 Michigan Urban Trunkline Intersections Safety Performance Functions (SPFs) Development and Support.

题名：	Michigan Urban Trunkline Intersections Safety Performance Functions (SPFs) Development and Support.
作者：	Savolained, P. T.; Gates, T.; Lord, D.; Geedipally, S.; Rista, E.; Barrette, T.; Russo, B. J.; Hamzeie, R.
关键词：	Safety performance, Stop-controlled intersections, Crash modification factor, MICHIGAN (STATE), Safety performance functions, Intersection, Signalized, Traffic crash data, Roadway Geometry, Traffic variables, Development, Support
摘要：	This study involves the development of safety performance functions (SPFs) for signalized and stop-controlled intersections located along urban and suburban arterials in the state of Michigan. Extensive databases were developed that resulted in the integration of traffic crash information, traffic volumes, and roadway geometry information. After these data were assembled, an exploratory analysis of the data was conducted to identify general crash trends. This included assessment of the base models provided in the Highway Safety Manual (HSM), as well as a calibration exercise, which demonstrated significant variability in terms of the goodness-of-fit of the HSM models across various site types. Michigan-specific SPFs were estimated, including simple models that consider only annual average daily traffic (AADT). More detailed models were also developed, which considered additional geometric factors, such as posted speed limits, number of lanes, and the presence of medians, intersection lighting, and right-turn-on-red prohibition. Crash modification factors (CMFs) were also estimated, which can be used to adjust the SPFs to account for differences related to these factors. Separate SPFs were estimated for intersections of only two-way streets and for those where at least one of the intersecting streets was one-way as the factors affecting traffic safety were found to vary between these site types. Severity distribution functions (SDFs) were also estimated, which can be used to predict the proportion of injury crashes which result in different injury severity levels. The SDFs may include various geometric, operation, and traffic variables that will allow the estimated proportion to be specific to an individual intersection. Ultimately, the results of this study provide MDOT with a number of methodological tools that will allow for proactive safety planning activities, including network screening and identification of high-risk sites. These tools have been calibrated such that they can be applied at either the statewide level or within any of MDOT’s seven geographic regions, providing additional flexibility to accommodate unique differences across the state. The report also documents procedures for maintaining and calibrating these SPFs over time, allowing for consideration of general trends that are not directly reflected by the predictor variables.
总页数：	Savolained, P. T.; Gates, T.; Lord, D.; Geedipally, S.; Rista, E.; Barrette, T.; Russo, B. J.; Hamzeie, R.
报告类型：	科技报告