Fully dynamic biconnectivity and transitive closure

Henzinger M, King V. 1995. Fully dynamic biconnectivity and transitive closure. Proceedings of IEEE 36th Annual Foundations of Computer Science. Foundations of Computer Science, 664–672.

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Abstract
This paper presents an algorithm for the fully dynamic biconnectivity problem whose running time is exponentially faster than all previously known solutions. It is the first dynamic algorithm that answers biconnectivity queries in time O(log/sup 2/n) in a n-node graph and can be updated after an edge insertion or deletion in polylogarithmic time. Our algorithm is a Las-Vegas style randomized algorithm with the update time amortized update time O(log/sup 4/n). Only recently the best deterministic result for this problem was improved to O(/spl radic/nlog/sup 2/n). We also give the first fully dynamic and a novel deletions-only transitive closure (i.e. directed connectivity) algorithms. These are randomized Monte Carlo algorithms. Let n be the number of nodes in the graph and let m/spl circ/ be the average number of edges in the graph during the whole update sequence: The fully dynamic algorithms achieve (1) query time O(n/logn) and update time O(m/spl circ//spl radic/nlog/sup 2/n+n); or (2) query time O(n/logn) and update time O(nm/spl circ//sup /spl mu/-1/)log/sup 2/n=O(nm/spl circ//sup 0.58/log/sup 2/n), where /spl mu/ is the exponent for boolean matrix multiplication (currently /spl mu/=2.38). The deletions-only algorithm answers queries in time O(n/logn). Its amortized update time is O(nlog/sup 2/n).
Publishing Year
Date Published
1995-11-01
Proceedings Title
Proceedings of IEEE 36th Annual Foundations of Computer Science
Publisher
Institute of Electrical and Electronics Engineers
Page
664-672
Conference
Foundations of Computer Science
Conference Location
Milwaukee, WI, United States
Conference Date
1995-10-23 – 1995-10-25
ISSN
IST-REx-ID

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Henzinger M, King V. Fully dynamic biconnectivity and transitive closure. In: Proceedings of IEEE 36th Annual Foundations of Computer Science. Institute of Electrical and Electronics Engineers; 1995:664-672. doi:10.1109/SFCS.1995.492668
Henzinger, M., & King, V. (1995). Fully dynamic biconnectivity and transitive closure. In Proceedings of IEEE 36th Annual Foundations of Computer Science (pp. 664–672). Milwaukee, WI, United States: Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/SFCS.1995.492668
Henzinger, Monika, and V. King. “Fully Dynamic Biconnectivity and Transitive Closure.” In Proceedings of IEEE 36th Annual Foundations of Computer Science, 664–72. Institute of Electrical and Electronics Engineers, 1995. https://doi.org/10.1109/SFCS.1995.492668.
M. Henzinger and V. King, “Fully dynamic biconnectivity and transitive closure,” in Proceedings of IEEE 36th Annual Foundations of Computer Science, Milwaukee, WI, United States, 1995, pp. 664–672.
Henzinger M, King V. 1995. Fully dynamic biconnectivity and transitive closure. Proceedings of IEEE 36th Annual Foundations of Computer Science. Foundations of Computer Science, 664–672.
Henzinger, Monika, and V. King. “Fully Dynamic Biconnectivity and Transitive Closure.” Proceedings of IEEE 36th Annual Foundations of Computer Science, Institute of Electrical and Electronics Engineers, 1995, pp. 664–72, doi:10.1109/SFCS.1995.492668.

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