Deep Neural Matching Models for Graph Retrieval

Kunal Goyal, Utkarsh Gupta, A. De, Soumen Chakrabarti
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引用次数: 4

Abstract

Graph retrieval from a large corpus of graphs has a wide variety of applications, e.g., sentence retrieval using words and dependency parse trees for question answering, image retrieval using scene graphs, and molecule discovery from a set of existing molecular graphs. In such graph search applications, nodes, edges and associated features bear distinctive physical significance. Therefore, a unified, trainable search model that efficiently returns corpus graphs that are highly relevant to a query graph has immense potential impact. In this paper, we present an effective, feature and structure-aware, end-to-end trainable neural match scoring system for graphs. We achieve this by constructing the product graph between the query and a candidate graph in the corpus, and then conduct a family of random walks on the product graph, which are then aggregated into the match score, using a network whose parameters can be trained. Experiments show the efficacy of our method, compared to competitive baseline approaches.
图检索的深度神经匹配模型
从大量的图语料库中检索图具有各种各样的应用,例如,使用单词和依赖解析树进行句子检索,使用场景图进行图像检索,以及从一组现有的分子图中发现分子。在这样的图搜索应用中,节点、边和相关特征具有显著的物理意义。因此,一个统一的、可训练的搜索模型,能够有效地返回与查询图高度相关的语料库图,具有巨大的潜在影响。在本文中,我们提出了一个有效的,特征和结构感知的,端到端可训练的神经匹配评分系统。我们通过在查询和语料库中的候选图之间构建产品图来实现这一点,然后使用可训练参数的网络在产品图上进行一系列随机行走,然后将其聚合成匹配分数。实验表明,与竞争对手的基线方法相比,我们的方法是有效的。
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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