We propose a method for estimating traffic volumes on all roads of the network, which is relevant to various traffic use cases. By combining large-scale probe-vehicle data with stationary detector data, this method builds a model to estimate the probe-vehicle penetration rate at road level, which then allows for traffic volume estimation. Trained by penetration rates from only 60% of the stationary detectors in the Netherlands, our model is able to predict the probe-vehicle penetration rate with a mean absolute percentage error (MAPE) of 8.3%, which decreases to 6% on motorways. Increasing the proportion of detectors used for training did not significantly improve model performance. This suggests that our method can be used in countries with less-developed detector infrastructure as well, provided a minimum coverage of detectors is achieved for all regions and road classes of interest. Traffic volume estimation quality ([Formula: see text]) is constrained by the quality of the penetration rate estimation ([Formula: see text]) and the sampling error, denoted as [Formula: see text]. Using the estimated penetration rates, traffic volumes on motorways can be estimated with a [Formula: see text] of 25% within about 2 min of collecting probe-vehicle observations and 7% within a day. Thus, our traffic volume estimations can support real-time operations on motorways. For roads other than motorways, the maximum accuracy is limited to a [Formula: see text] of about 12%, and significantly longer observation periods are needed. Still, most offline use cases can be covered (e.g., annual average daily traffic).
Network-Wide Traffic Volume Estimation Based on Probe Vehicle Data
Transportation Research Record: Journal of the Transportation Research Board
2025-01-01
Article (Journal)
Electronic Resource
English
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