An Optimal Algorithm for Strict Circular Seriation

IF 1.9 Q1 MATHEMATICS, APPLIED

SIAM journal on mathematics of data science Pub Date : 2021-01-01 DOI:10.1137/21m139356x

Santiago Armstrong, Crist'obal Guzm'an, C. Sing-Long

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引用次数: 4

Abstract

We study the problem of circular seriation, where we are given a matrix of pairwise dissimilarities between $n$ objects, and the goal is to find a {\em circular order} of the objects in a manner that is consistent with their dissimilarity. This problem is a generalization of the classical {\em linear seriation} problem where the goal is to find a {\em linear order}, and for which optimal ${\cal O}(n^2)$ algorithms are known. Our contributions can be summarized as follows. First, we introduce {\em circular Robinson matrices} as the natural class of dissimilarity matrices for the circular seriation problem. Second, for the case of {\em strict circular Robinson dissimilarity matrices} we provide an optimal ${\cal O}(n^2)$ algorithm for the circular seriation problem. Finally, we propose a statistical model to analyze the well-posedness of the circular seriation problem for large $n$. In particular, we establish ${\cal O}(\log(n)/n)$ rates on the distance between any circular ordering found by solving the circular seriation problem to the underlying order of the model, in the Kendall-tau metric.

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严格循环序列的最优算法

我们研究了圆序列问题，在这个问题中，我们给出了一个$n$对象之间的配对不相似度矩阵，目标是以与它们的不相似度一致的方式找到对象的{\em圆阶}。这个问题是经典的{\em线性序列化}问题的推广，其目标是找到一个{\em线性顺序}，并且已知最优的${\cal O}(n^2)$算法。我们的贡献可以概括如下。首先，我们引入{\em圆形罗宾逊矩阵}作为圆形序列问题的不相似矩阵的自然类别。其次，对于{\em严格循环罗宾逊不相似矩阵}的情况，我们为循环序列化问题提供了一个最优的${\cal O}(n^2)$算法。最后，我们提出了一个统计模型来分析大$n$的圆序列问题的适定性。特别地，我们在Kendall-tau度量中建立了${\cal O}(\log(n)/n)$速率，该速率是通过解决循环序列化问题找到的任何循环顺序与模型底层顺序之间的距离。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SIAM journal on mathematics of data science

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