Highlights The LWR-based dynamic network loading model with spillback is considered. Continuity of the path delay operator is established rigorously. Well-posedness of a merge and a diverge junction model is analyzed in depth. A novel method for estimating the minimum network supply is proposed. Gridlock is shown to never occur infinite time horizon on the network.
Abstract This paper establishes the continuity of the path delay operators for dynamic network loading (DNL) problems based on the Lighthill–Whitham–Richards model, which explicitly capture vehicle spillback. The DNL describes and predicts the spatial-temporal evolution of traffic flow and congestion on a network that is consistent with established route and departure time choices of travelers. The LWR-based DNL model is first formulated as a system of partial differential algebraic equations. We then investigate the continuous dependence of merge and diverge junction models with respect to their initial/boundary conditions, which leads to the continuity of the path delay operator through the wave-front tracking methodology and the generalized tangent vector technique. As part of our analysis leading up to the main continuity result, we also provide an estimation of the minimum network supply without resort to any numerical computation. In particular, it is shown that gridlock can never occur in a finite time horizon in the DNL model.
Continuity of the path delay operator for dynamic network loading with spillback
Transportation Research Part B: Methodological ; 92 ; 211-233
2015-09-18
23 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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