Highlights We operationalize the phase swap sorting strategy on all arms of an intersection. We explicitly take into consideration all traffic movements. We formulate the capacity optimization model as a binary MIP model. Substantially higher reserve capacity can be obtained under our approach.
Abstract It is well recognized that the left turn reduces the intersection capacity significantly, because some of the traffic lanes cannot be used to discharge vehicles during its green phases. In this paper, we operationalize the phase swap sorting strategy (Xuan, 2011) to use most, if not all, traffic lanes to discharge vehicles at the intersection cross-section to increase its capacity. We explicitly take into consideration all through, left- and right-turning movements on all arms and formulate the capacity maximization problem as a Binary-Mixed-Integer-Linear-Programming (BMILP) model. The model is efficiently solved by standard branch-and-bound algorithms and outputs optimal signal timings, lane allocations, and other decisions. Numerical experiments show that substantially higher reserve capacity can be obtained under our approach.
Capacity optimization of an isolated intersection under the phase swap sorting strategy
Transportation Research Part B: Methodological ; 60 ; 85-106
2013-12-05
22 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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