Sampling Subgraphs with Guaranteed Treewidth for Accurate and Efficient Graphical Inference

Proceedings of the 13th International Conference on Web Search and Data Mining Pub Date : 2020-01-20 DOI:10.1145/3336191.3371815

Jaemin Yoo, U. Kang, Mauro Scanagatta, Giorgio Corani, Marco Zaffalon

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引用次数: 10

Abstract

How can we run graphical inference on large graphs efficiently and accurately? Many real-world networks are modeled as graphical models, and graphical inference is fundamental to understand the properties of those networks. In this work, we propose a novel approach for fast and accurate inference, which first samples a small subgraph and then runs inference over the subgraph instead of the given graph. This is done by the bounded treewidth (BTW) sampling, our novel algorithm that generates a subgraph with guaranteed bounded treewidth while retaining as many edges as possible. We first analyze the properties of BTW theoretically. Then, we evaluate our approach on node classification and compare it with the baseline which is to run loopy belief propagation (LBP) on the original graph. Our approach can be coupled with various inference algorithms: it shows higher accuracy up to 13.7% with the junction tree algorithm, and allows faster inference up to 23.8 times with LBP. We further compare BTW with previous graph sampling algorithms and show that it gives the best accuracy.

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采样子图与保证树宽度准确和有效的图形推理

如何在大型图形上高效、准确地运行图形推理?许多现实世界的网络都被建模为图形模型，而图形推理是理解这些网络属性的基础。在这项工作中，我们提出了一种快速准确推理的新方法，该方法首先对一个小子图进行采样，然后在子图上而不是给定图上进行推理。这是通过有界树宽(BTW)采样完成的，我们的新算法生成一个保证有界树宽的子图，同时保留尽可能多的边。首先从理论上分析了BTW的性质。然后，我们评估了我们的节点分类方法，并将其与在原始图上运行循环信念传播(LBP)的基线进行了比较。我们的方法可以与各种推理算法相结合:使用连接树算法，它的准确率高达13.7%，使用LBP算法，它的推理速度更快，高达23.8倍。我们进一步将BTW与以前的图采样算法进行比较，表明它具有最好的精度。

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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Proceedings of the 13th International Conference on Web Search and Data Mining

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