On approximation of 2D persistence modules by interval-decomposables

Journal of Computational Algebra Pub Date : 2023-09-01 DOI:10.1016/j.jaca.2023.100007

Hideto Asashiba , Emerson G. Escolar , Ken Nakashima , Michio Yoshiwaki

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引用次数: 26

Abstract

In this work, we propose a new invariant for 2D persistence modules called the compressed multiplicity and show that it generalizes the notions of the dimension vector and the rank invariant. In addition, for a 2D persistence module M, we propose an “interval-decomposable replacement” $δ^{⁎} (M)$ (in the split Grothendieck group of the category of persistence modules), which is expressed by a pair of interval-decomposable modules, that is, its positive and negative parts. We show that M is interval-decomposable if and only if $δ^{⁎} (M)$ is equal to M in the split Grothendieck group. Furthermore, even for modules M not necessarily interval-decomposable, $δ^{⁎} (M)$ preserves the dimension vector and the rank invariant of M. In addition, we provide an algorithm to compute $δ^{⁎} (M)$ (a high-level algorithm in the general case, and a detailed algorithm for the size $2 \times n$ case).

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关于二维持久模的区间可分解逼近

在这项工作中，我们为二维持久模提出了一个新的不变量，称为压缩多重性，并证明了它推广了维向量和秩不变量的概念。此外，对于2D持久模M，我们提出了一个“区间可分解替换”δ（M）（在持久模范畴的分裂Grothendieck群中），它由一对区间可分解模表示，即它的正部分和负部分。我们证明了M是区间可分解的，当且仅当δ（M）等于分裂Grothendieck群中的M。此外，即使对于不一定是区间可分解的模M，δ（M）也保持了M的维向量和秩不变量。此外，我们还提供了一种计算δ（M，在一般情况下是高级算法，在大小为2×n的情况下是详细算法）的算法。

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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Journal of Computational Algebra

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