Optimal capacity allocation for heavy-traffic fixed-cycle traffic-light queues and intersections

Setting traffic light signals is a classical topic in traffic engineering, and important in heavy-traffic conditions when green times become scarce and longer queues are inevitably formed. For the fixed-cycle traffic-light queue, an elementary queueing model for one traffic light with cyclic signali...

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Veröffentlicht in:	arXiv.org 2022-08
Hauptverfasser:	Boon, Marko, Janssen, Guido, Johan van Leeuwaarden, Timmerman, Rik
Format:	Artikel
Sprache:	eng
Schlagworte:	Approximation Optimization Queues Traffic capacity Traffic conflicts Traffic control Traffic engineering Traffic intersections Traffic models Traffic signals
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description	Setting traffic light signals is a classical topic in traffic engineering, and important in heavy-traffic conditions when green times become scarce and longer queues are inevitably formed. For the fixed-cycle traffic-light queue, an elementary queueing model for one traffic light with cyclic signaling, we obtain heavy-traffic limits that capture the long-term queue behavior. We leverage the limit theorems to obtain sharp performance approximations for one queue in heavy traffic. We also consider optimization problems that aim for optimal division of green times among multiple conflicting traffic streams. We show that inserting heavy-traffic approximations leads to tractable optimization problems and close-to-optimal signal prescriptions. The same type of limiting result can be established for several vehicle-actuated strategies which adds to the general applicability of the framework presented in this paper.
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subjects	Approximation Optimization Queues Traffic capacity Traffic conflicts Traffic control Traffic engineering Traffic intersections Traffic models Traffic signals
title	Optimal capacity allocation for heavy-traffic fixed-cycle traffic-light queues and intersections
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