Abstract
Recently, many speed-up techniques were developed for the computation of shortest paths in networks with rather static edge latencies. Very little is known about dealing with problems which rely on the computation of shortest paths in highly dynamic networks. However, with an increasing amount of traffic, static models of networks rather sparsely reflect realistic scenarios. In the framework of network congestion games, the edge latencies depend on the number of users traveling on the edges. We develop speed-up techniques for the selfish step algorithm to efficiently compute (pure) Nash equilibria in network congestion games. Our approaches
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periodically compute estimations for lengths of shortest paths during the advance of the selfish step algorithm with the purpose to use A * for many path computations, and
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completely save many path computations or substitute them by more efficient tests.
In comparison to an implementation of the selfish-step algorithm using Dijkstra’s algorithm we improve the total running time by a factor of 4 up to 9 on highway networks and grids.
This research has (partially) been supported by the DFG Sonderforschungsbereich 614 “Selbstoptimierende Systeme des Maschinenbaus.”
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Kirschner, M., Schengbier, P., Tscheuschner, T. (2009). Speed-Up Techniques for the Selfish Step Algorithm in Network Congestion Games. In: Vahrenhold, J. (eds) Experimental Algorithms. SEA 2009. Lecture Notes in Computer Science, vol 5526. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-02011-7_17
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DOI: https://doi.org/10.1007/978-3-642-02011-7_17
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