New Tradeoffs for Decremental Approximate All-Pairs Shortest Paths
November 02, 2022 Β· Declared Dead Β· π International Colloquium on Automata, Languages and Programming
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Authors
Michal Dory, Sebastian Forster, Yasamin Nazari, Tijn de Vos
arXiv ID
2211.01152
Category
cs.DS: Data Structures & Algorithms
Citations
7
Venue
International Colloquium on Automata, Languages and Programming
Last Checked
4 months ago
Abstract
We provide new tradeoffs between approximation and running time for the decremental all-pairs shortest paths (APSP) problem. For undirected graphs with $m$ edges and $n$ nodes undergoing edge deletions, we provide four new approximate decremental APSP algorithms, two for weighted and two for unweighted graphs. Our first result is $(2+ Ξ΅)$-APSP with total update time $\tilde{O}(m^{1/2}n^{3/2})$ (when $m= n^{1+c}$ for any constant $0<c<1$). Prior to our work the fastest algorithm for weighted graphs with approximation at most $3$ had total $\tilde O(mn)$ update time for $(1+Ξ΅)$-APSP [Bernstein, SICOMP 2016]. Our second result is $(2+Ξ΅, W_{u,v})$-APSP with total update time $\tilde{O}(nm^{3/4})$, where the second term is an additive stretch with respect to $W_{u,v}$, the maximum weight on the shortest path from $u$ to $v$. Our third result is $(2+ Ξ΅)$-APSP for unweighted graphs in $\tilde O(m^{7/4})$ update time, which for sparse graphs ($m=o(n^{8/7})$) is the first subquadratic $(2+Ξ΅)$-approximation. Our last result for unweighted graphs is $(1+Ξ΅, 2(k-1))$-APSP, for $k \geq 2 $, with $\tilde{O}(n^{2-1/k}m^{1/k})$ total update time (when $m=n^{1+c}$ for any constant $c >0$). For comparison, in the special case of $(1+Ξ΅, 2)$-approximation, this improves over the state-of-the-art algorithm by [Henzinger, Krinninger, Nanongkai, SICOMP 2016] with total update time of $\tilde{O}(n^{2.5})$. All of our results are randomized, work against an oblivious adversary, and have constant query time.
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