Fault-Tolerant ST-Diameter Oracles

May 05, 2023 Β· Declared Dead Β· πŸ› International Colloquium on Automata, Languages and Programming

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Authors Davide BilΓ², Keerti Choudhary, Sarel Cohen, Tobias Friedrich, Simon Krogmann, Martin Schirneck arXiv ID 2305.03697 Category cs.DS: Data Structures & Algorithms Citations 2 Venue International Colloquium on Automata, Languages and Programming Last Checked 4 months ago
Abstract
We study the problem of estimating the $ST$-diameter of a graph that is subject to a bounded number of edge failures. An $f$-edge fault-tolerant $ST$-diameter oracle ($f$-FDO-$ST$) is a data structure that preprocesses a given graph $G$, two sets of vertices $S,T$, and positive integer $f$. When queried with a set $F$ of at most $f$ edges, the oracle returns an estimate $\widehat{D}$ of the $ST$-diameter $\operatorname{diam}(G-F,S,T)$, the maximum distance between vertices in $S$ and $T$ in $G-F$. The oracle has stretch $Οƒ\geq 1$ if $\operatorname{diam}(G-F,S,T) \leq \widehat{D} \leq Οƒ\operatorname{diam}(G-F,S,T)$. If $S$ and $T$ both contain all vertices, the data structure is called an $f$-edge fault-tolerant diameter oracle ($f$-FDO). An $f$-edge fault-tolerant distance sensitivity oracles ($f$-DSO) estimates the pairwise graph distances under up to $f$ failures. We design new $f$-FDOs and $f$-FDO-$ST$s by reducing their construction to that of all-pairs and single-source $f$-DSOs. We obtain several new tradeoffs between the size of the data structure, stretch guarantee, query and preprocessing times for diameter oracles by combining our black-box reductions with known results from the literature. We also provide an information-theoretic lower bound on the space requirement of approximate $f$-FDOs. We show that there exists a family of graphs for which any $f$-FDO with sensitivity $f \ge 2$ and stretch less than $5/3$ requires $Ξ©(n^{3/2})$ bits of space, regardless of the query time.
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