Longest Square Subsequence Problem Revisited
May 30, 2020 Β· Declared Dead Β· π SPIRE
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Authors
Takafumi Inoue, Shunsuke Inenaga, Hideo Bannai
arXiv ID
2006.00216
Category
cs.DS: Data Structures & Algorithms
Citations
6
Venue
SPIRE
Last Checked
4 months ago
Abstract
The longest square subsequence (LSS) problem consists of computing a longest subsequence of a given string $S$ that is a square, i.e., a longest subsequence of form $XX$ appearing in $S$. It is known that an LSS of a string $S$ of length $n$ can be computed using $O(n^2)$ time [Kosowski 2004], or with (model-dependent) polylogarithmic speed-ups using $O(n^2 (\log \log n)^2 / \log^2 n)$ time [Tiskin 2013]. We present the first algorithm for LSS whose running time depends on other parameters, i.e., we show that an LSS of $S$ can be computed in $O(r \min\{n, M\}\log \frac{n}{r} + n + M \log n)$ time with $O(M)$ space, where $r$ is the length of an LSS of $S$ and $M$ is the number of matching points on $S$.
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