
This paper studies the problem of efficiently finding a diverse set of longest common subsequences (LCSs) from a set of input strings, considering both sum and minimum diversity measures under Hamming distance. The authors analyze the computational complexity of these problems, providing polynomial-time algorithms for bounded K, as well as PTAS and FPT algorithms for unbounded K.


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efficient-algorithms-for-finding-diverse-longest-common-subsequences-in-graphs


Efficient Algorithms for Finding Diverse Longest Common Subsequences in Graphs
