Diffusion State Distances: Multitemporal Analysis, Fast Algorithms, and Applications to Biological Networks

IF 1.9 Q1 MATHEMATICS, APPLIED

SIAM journal on mathematics of data science Pub Date : 2020-03-07 DOI:10.1137/20M1324089

L. Cowen, K. Devkota, Xiaozhe Hu, James M. Murphy, Kaiyi Wu

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引用次数: 5

Abstract

Data-dependent metrics are powerful tools for learning the underlying structure of high-dimensional data. This article develops and analyzes a data-dependent metric known as diffusion state distance (DSD), which compares points using a data-driven diffusion process. Unlike related diffusion methods, DSDs incorporate information across time scales, which allows for the intrinsic data structure to be inferred in a parameter-free manner. This article develops a theory for DSD based on the multitemporal emergence of mesoscopic equilibria in the underlying diffusion process. New algorithms for denoising and dimension reduction with DSD are also proposed and analyzed. These approaches are based on a weighted spectral decomposition of the underlying diffusion process, and experiments on synthetic datasets and real biological networks illustrate the efficacy of the proposed algorithms in terms of both speed and accuracy. Throughout, comparisons with related methods are made, in order to illustrate the distinct advantages of DSD for datasets exhibiting multiscale structure.

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扩散状态距离:多时间分析、快速算法及在生物网络中的应用

数据相关度量是学习高维数据底层结构的强大工具。本文开发并分析了一个依赖于数据的度量，称为扩散状态距离(DSD)，它使用数据驱动的扩散过程来比较点。与相关的扩散方法不同，dsd包含跨时间尺度的信息，这允许以无参数的方式推断内在数据结构。本文发展了一种基于扩散过程中介观平衡的多时间出现的DSD理论。提出并分析了基于DSD的去噪和降维的新算法。这些方法基于潜在扩散过程的加权谱分解，在合成数据集和真实生物网络上的实验表明，所提出的算法在速度和准确性方面都是有效的。在整个过程中，与相关方法进行了比较，以说明DSD在具有多尺度结构的数据集上的独特优势。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SIAM journal on mathematics of data science

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