On resolution coresets for constrained clustering

Journal of Computational Mathematics and Data Science Pub Date : 2024-09-01 DOI:10.1016/j.jcmds.2024.100100

Maximilian Fiedler, Peter Gritzmann, Fabian Klemm

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Abstract

Specific data compression techniques, formalized by the concept of coresets, proved to be powerful for many optimization problems. In fact, while tightly controlling the approximation error, coresets may lead to significant speed up of the computations and hence allow to extend algorithms to much larger problem sizes. The present paper deals with a weight-balanced clustering problem, and is specifically motivated by an application in materials science where a voxel-based image is to be processed into a diagram representation. Here, the class of desired coresets is naturally confined to those which can be viewed as lowering the resolution of the input data. While one might expect that such resolution coresets are inferior to unrestricted coreset we prove bounds for resolution coresets which improve known bounds in the relevant dimensions and also lead to significantly faster algorithms in practice.

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关于约束聚类的分辨率核心集

事实证明，以核心集概念为形式的特定数据压缩技术对许多优化问题都非常有效。事实上，在严格控制近似误差的同时，核心集可以显著加快计算速度，从而将算法扩展到更大的问题规模。本文讨论的是权重平衡聚类问题，其具体动机来自材料科学中的一个应用，即把基于体素的图像处理成图表表示。在这里，所需的核心集类别自然仅限于那些可被视为降低输入数据分辨率的核心集。虽然人们可能会认为这种分辨率核心集不如无限制核心集，但我们证明了分辨率核心集的边界，这改进了相关维度中的已知边界，并在实践中大大加快了算法的速度。

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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来源期刊

Journal of Computational Mathematics and Data Science

CiteScore

3.00

自引率

0.00%

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