Affiliation:
1. University of Florida, Gainesville, FL, USA
Abstract
Motivated by networked systems in which the functionality of the network depends on vertices in the network being within a bounded distance
T
of each other, we study the length-bounded multicut problem: given a set of pairs, find a minimum-size set of edges whose removal ensures the distance between each pair exceeds
T
. We introduce the first algorithms for this problem capable of scaling to massive networks with billions of edges and nodes: three highly scalable algorithms with worst-case performance ratios. Furthermore, one of our algorithms is fully dynamic, capable of updating its solution upon incremental vertex / edge additions or removals from the network while maintaining its performance ratio. Finally, we show that unless
NP
⊆
BPP
, there is no polynomial-time, approximation algorithm with performance ratio better than $Ømega (T)$, which matches the ratio of our dynamic algorithm up to a constant factor.
Publisher
Association for Computing Machinery (ACM)
Cited by
7 articles.
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