Consistency of Archetypal Analysis

IF 1.9 Q1 MATHEMATICS, APPLIED SIAM journal on mathematics of data science Pub Date : 2020-10-16 DOI:10.1137/20M1331792
B. Osting, Dong Wang, Yiming Xu, Dominique Zosso
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引用次数: 3

Abstract

Archetypal analysis is an unsupervised learning method that uses a convex polytope to summarize multivariate data. For fixed $k$, the method finds a convex polytope with $k$ vertices, called archetype points, such that the polytope is contained in the convex hull of the data and the mean squared distance between the data and the polytope is minimal. In this paper, we prove a consistency result that shows if the data is independently sampled from a probability measure with bounded support, then the archetype points converge to a solution of the continuum version of the problem, of which we identify and establish several properties. We also obtain the convergence rate of the optimal objective values under appropriate assumptions on the distribution. If the data is independently sampled from a distribution with unbounded support, we also prove a consistency result for a modified method that penalizes the dispersion of the archetype points. Our analysis is supported by detailed computational experiments of the archetype points for data sampled from the uniform distribution in a disk, the normal distribution, an annular distribution, and a Gaussian mixture model.
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原型分析的一致性
原型分析是一种使用凸多面体来总结多元数据的无监督学习方法。对于固定的$k$,该方法找到一个具有$k$顶点的凸多面体,称为原型点,使得多面体包含在数据的凸包中,并且数据与多面体之间的均方距离最小。在本文中,我们证明了一个一致性结果,该结果表明,如果数据从有界支持的概率测度中独立采样,则原型点收敛于问题的连续统版本的解,我们识别并建立了该问题的几个性质。在适当的分布假设下,得到了最优目标值的收敛速度。如果数据是从具有无界支持的分布中独立采样的,我们还证明了对原型点分散进行惩罚的改进方法的一致性结果。我们的分析得到了从均匀分布的圆盘、正态分布、环状分布和高斯混合模型中采样的数据的原型点的详细计算实验的支持。
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