Probe Vehicle Runs or Loop Detectors?: Effect of Detector Spacing and Sample Size on Accuracy of Freeway Congestion Monitoring

Freeway congestion monitoring can be based either on sampling-based methods, such as probe vehicle runs, or on continuous data from loop detector infrastructure. Sample size, in terms of the number of days sampled, affects the accuracy of sampling-based methods; detector spacing or detector density...

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Bibliographic Details
Published in:Transportation research record 2007, Vol.2012 (1), p.57-63
Main Authors: Kwon, Jaimyoung, Petty, Karl, Varaiya, Pravin
Format: Article
Language:English
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Summary:Freeway congestion monitoring can be based either on sampling-based methods, such as probe vehicle runs, or on continuous data from loop detector infrastructure. Sample size, in terms of the number of days sampled, affects the accuracy of sampling-based methods; detector spacing or detector density affects the accuracy of the detector-based method. This paper presents an empirical model of the effect of the two parameters—sample size and detector spacing—on the accuracy of both methods in estimating the annual average of three congestion parameters: total delay, average duration of congestion, and average spatial extent of congestion. The model is developed with data from four urban freeway corridors in California. Among other conclusions, the model predicts that to measure the congestion parameters with 10% error, 4 to 6 days’ worth of good probe vehicle data or loop detector data with half-mile spacing is needed. The proposed model facilitates comparison of the two alternatives in regard to the cost for achieving the same target accuracy. The result can also be used as a guide to determine the sample size or detector spacing in planning new congestion monitoring.
ISSN:0361-1981
2169-4052
DOI:10.3141/2012-07