On Computing Centroids According to the p-Norms of Hamming Distance Vectors
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In this paper we consider the p-Norm Hamming Centroid problem which asks to determine whether some given binary strings have a centroid with a bound on the p-norm of its Hamming distances to the strings. Specifically, given a set of strings S and a real k, we consider the problem of determining whether there exists a string s^* with (∑_s ∈ Sd^p(s^*,s))^1/p≤ k, where d(,) denotes the Hamming distance metric. This problem has important applications in data clustering, and is a generalization of the well-known polynomial-time solvable Consensus String (p=1) problem, as well as the NP-hard Closest String (p=∞) problem. Our main result shows that the problem is NP-hard for all rational p > 1, closing the gap for all rational values of p between 1 and ∞. Under standard complexity assumptions the reduction also implies that the problem has no 2^o(n+m)-time or 2^o(k^p/(p+1))-time algorithm, where m denotes the number of input strings and n denotes the length of each string, for any fixed p > 1. Both running time lower bounds are tight. In particular, we provide a 2^k^p/(p+1)+ε-time algorithm for each fixed ε > 0.
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