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On finding minimal, maximal, and consistent sequences over a binary alphabet

https://doi.org/10.1016/0304-3975(95)00014-NGet rights and content
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Abstract

In this paper we investigate the complexity of finding various kinds of common super- and subsequences with respect to one or two given sets of strings. We show that Longest Minimal Common Supersequence, Shortest Maximal Common Subsequence, and Shortest Maximal Common Non-Supersequence are MAX SNP-hard over a binary alphabet. Moreover, we show that Shortest Common Supersequence, Longest Common Subsequence, Longest Common Non-Supersequence, Shortest Common Non-Subsequence, and Longest Minimal Common Non-Supersequence are MAX SNP-hard over a binary alphabet if the number of zeros is fixed (by the instance). We show how these problems can be related to finding sequences consistent with respect to two given sets of strings. This leads to a unified approach for characterizing the complexity of such problems.

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