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Computing Similarity Distances Between Rankings

Published 16 Jul 2013 in cs.DS, cs.IT, and math.IT | (1307.4339v4)

Abstract: We address the problem of computing distances between rankings that take into account similarities between candidates. The need for evaluating such distances is governed by applications as diverse as rank aggregation, bioinformatics, social sciences and data storage. The problem may be summarized as follows: Given two rankings and a positive cost function on transpositions that depends on the similarity of the candidates involved, find a smallest cost sequence of transpositions that converts one ranking into another. Our focus is on costs that may be described via special metric-tree structures and on complete rankings modeled as permutations. The presented results include a quadratic-time algorithm for finding a minimum cost decomposition for simple cycles, and a quadratic-time, $4/3$-approximation algorithm for permutations that contain multiple cycles. The proposed methods rely on investigating a newly introduced balancing property of cycles embedded in trees, cycle-merging methods, and shortest path optimization techniques.

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