基于扩散接口方法和快速矩阵向量积的聚合多层图半监督学习

IF 1.9 Q1 MATHEMATICS, APPLIED
Kai Bergermann, M. Stoll, Toni Volkmer
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引用次数: 8

摘要

将一种基于扩散接口方法的基于图的多类半监督分类技术推广到多层图。除了处理具有固有多层结构的各种应用程序外,我们还提出了一种非常灵活的方法,可以用低维多层图表示来解释高维数据。高效的数值方法涉及相应的微分图算子的谱分解以及基于非均衡快速傅里叶变换(NFFT)的快速矩阵向量乘积,使得快速处理大型和高维数据集成为可能。我们进行了各种数值测试,特别关注图像分割。特别是,我们在每层多达1000万个节点的数据集以及多达104个维度的数据集上测试了我们的方法的性能,从而产生了多达52层的图。虽然所有的数值实验都可以在一台普通的笔记本电脑上运行,但在我们算法的所有阶段,运行时的每个迭代步骤对网络大小的线性依赖使得它可以扩展到更大、更高维度的问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Semi-supervised Learning for Aggregated Multilayer Graphs Using Diffuse Interface Methods and Fast Matrix-Vector Products
We generalize a graph-based multiclass semi-supervised classification technique based on diffuse interface methods to multilayer graphs. Besides the treatment of various applications with an inherent multilayer structure, we present a very flexible approach that interprets high-dimensional data in a low-dimensional multilayer graph representation. Highly efficient numerical methods involving the spectral decomposition of the corresponding differential graph operators as well as fast matrix-vector products based on the nonequispaced fast Fourier transform (NFFT) enable the rapid treatment of large and high-dimensional data sets. We perform various numerical tests putting a special focus on image segmentation. In particular, we test the performance of our method on data sets with up to 10 million nodes per layer as well as up to 104 dimensions resulting in graphs with up to 52 layers. While all presented numerical experiments can be run on an average laptop computer, the linear dependence per iteration step of the runtime on the network size in all stages of our algorithm makes it scalable to even larger and higher-dimensional problems.
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