G 不变图拉普拉卡方第 I 部分:收敛率和特征分解

IF 2.6 2区 数学 Q1 MATHEMATICS, APPLIED
Eitan Rosen , Paulina Hoyos , Xiuyuan Cheng , Joe Kileel , Yoel Shkolnisky
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引用次数: 0

摘要

基于图拉普拉斯的流形数据算法已被证明在降维、聚类和去噪等任务中非常有效。在这项工作中,我们考虑的是数据点位于流形上的数据集,该流形在已知单元矩阵 Lie 群 G 的作用下是闭合的。我们建议将 G 对数据集的作用所产生的所有点对之间的距离纳入图拉普拉卡方构建中。我们将后一种构造称为 "G 不变图拉普拉卡方"(G-GL)。我们证明,G-GL 在数据流形上收敛于拉普拉斯-贝尔特拉米算子,同时与只利用给定数据集中点间距离的标准图拉普拉斯算子相比,G-GL 的收敛率显著提高。此外,我们还展示了 G-GL 的特征函数集,这些特征函数具有特定矩阵的组元和特征向量之间的特定乘积形式,可以使用 FFT 类型的算法从数据中高效地估算出来。我们将在特殊单元群 SU(2) 作用下封闭的噪声流形的数据过滤问题上演示我们的构造及其优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The G-invariant graph Laplacian Part I: Convergence rate and eigendecomposition

Graph Laplacian based algorithms for data lying on a manifold have been proven effective for tasks such as dimensionality reduction, clustering, and denoising. In this work, we consider data sets whose data points lie on a manifold that is closed under the action of a known unitary matrix Lie group G. We propose to construct the graph Laplacian by incorporating the distances between all the pairs of points generated by the action of G on the data set. We deem the latter construction the “G-invariant Graph Laplacian” (G-GL). We show that the G-GL converges to the Laplace-Beltrami operator on the data manifold, while enjoying a significantly improved convergence rate compared to the standard graph Laplacian which only utilizes the distances between the points in the given data set. Furthermore, we show that the G-GL admits a set of eigenfunctions that have the form of certain products between the group elements and eigenvectors of certain matrices, which can be estimated from the data efficiently using FFT-type algorithms. We demonstrate our construction and its advantages on the problem of filtering data on a noisy manifold closed under the action of the special unitary group SU(2).

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来源期刊
Applied and Computational Harmonic Analysis
Applied and Computational Harmonic Analysis 物理-物理:数学物理
CiteScore
5.40
自引率
4.00%
发文量
67
审稿时长
22.9 weeks
期刊介绍: Applied and Computational Harmonic Analysis (ACHA) is an interdisciplinary journal that publishes high-quality papers in all areas of mathematical sciences related to the applied and computational aspects of harmonic analysis, with special emphasis on innovative theoretical development, methods, and algorithms, for information processing, manipulation, understanding, and so forth. The objectives of the journal are to chronicle the important publications in the rapidly growing field of data representation and analysis, to stimulate research in relevant interdisciplinary areas, and to provide a common link among mathematical, physical, and life scientists, as well as engineers.
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