有向图中维持全对最短路径和传递闭包的全动态算法

40th Annual Symposium on Foundations of Computer Science (Cat. No.99CB37039) Pub Date : 1999-10-17 DOI:10.1109/SFFCS.1999.814580

Valerie King

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引用次数: 255

摘要

本文首次给出了在权值小于b的有向图中维护全对最短路径的全动态算法。对于误差因子为(2+/spl epsiv/)的近似最短路径，对于任意正常数/spl epsiv/，其平摊更新时间为O(n/sup 2/ log/sup 2/ n/log log n);当误差因子为(1+/spl epsiv/)时，平摊更新时间为O(n/sup 2/ log/sup 3/ (bn)//spl epsiv//sup 2/)。对于精确最短路径，平摊更新时间为O(n/sup 2.5/ /spl radic/(b log n)))。精确和近似最短距离的查询时间为O(1);精确的时间路径和近似路径可以在与它们的长度成正比的时间内生成。提出了一种更新时间为O(n/sup 2/ log n)、查询时间为O(1)的全动态传递闭包算法。先前已知的查询时间快的全动态传递闭包算法存在单侧误差和更新时间0 (n/sup 2.28/)。该算法使用简单的数据结构，并且是确定性的。

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Fully dynamic algorithms for maintaining all-pairs shortest paths and transitive closure in digraphs

This paper presents the first fully dynamic algorithms for maintaining all-pairs shortest paths in digraphs with positive integer weights less than b. For approximate shortest paths with an error factor of (2+/spl epsiv/), for any positive constant /spl epsiv/, the amortized update time is O(n/sup 2/ log/sup 2/ n/log log n); for an error factor of (1+/spl epsiv/) the amortized update time is O(n/sup 2/ log/sup 3/ (bn)//spl epsiv//sup 2/). For exact shortest paths the amortized update time is O(n/sup 2.5/ /spl radic/(b log n)). Query time for exact and approximate shortest distances is O(1); exact time and approximate paths can be generated in time proportional to their lengths. Also presented is a fully dynamic transitive closure algorithm with update time O(n/sup 2/ log n) and query time O(1). The previously known fully dynamic transitive closure algorithm with fast query time has one-sided error and update time O(n/sup 2.28/). The algorithms use simple data structures, and are deterministic.

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40th Annual Symposium on Foundations of Computer Science (Cat. No.99CB37039)

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