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Real-time merging traffic control for throughput maximization at motorway work zones

Papageorgiou Markos, Kouvelas Anastasios, Spiliopoulou Anastasia, Athina Tympakianaki, Papamichail I

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URI: http://purl.tuc.gr/dl/dias/44F13F40-E6F9-40DD-9225-8CF1AF078A62
Year 2012
Type of Item Peer-Reviewed Journal Publication
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Bibliographic Citation Tympakianaki A., Spiliopoulou A., Kouvelas A., Papamichail I., Papageorgiou M. and Wang Y., "Real-time merging traffic control for throughput maximization at motorway work zones", Transportation Research Part C, Vol. 44, pp. 242-252, 2014. doi:10.1016/j.sbspro.2012.06.1130
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Summary

Work zones on motorways necessitate the drop of one or more lanes which may lead to significant reduction of traffic flow capacity and efficiency, traffic flow disruptions, congestion creation, and increased accident risk. Real-time traffic control by use of green-red traffic signals at the motorway mainstream is proposed in order to achieve safer merging of vehicles entering the work zone and, at the same time, maximize throughput and reduce travel delays. A particular issue addressed in this research is the investigation of the appropriate distance between the merge area and the traffic lights so as to lead, in combination with the employed real-time traffic control strategy, to the most efficient merging of vehicles. The control strategy applied for real-time signal operation is an ALINEA-like PI-type feedback regulator. In order to achieve maximum performance of the control strategy, some calibration of the regulator's parameters may be necessary. The calibration is first conducted manually, via a typical trial-and-error procedure. In an additional investigation, the recently proposed learning/adaptive algorithm AFT is employed in order to automatically fine-tune the regulator parameters. Experiments conducted with a microscopic simulator for a hypothetical work zone infrastructure, demonstrate the potential high benefits of the control scheme.

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