Maximal D-truss Search in Dynamic Directed Graphs

Anxin Tian, Alexander Zhou, Yue Wang, Lei Chen
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引用次数: 1

Abstract

Community search (CS) aims at personalized subgraph discovery which is the key to understanding the organisation of many real-world networks. CS in undirected networks has attracted significant attention from researchers, including many solutions for various cohesive subgraph structures and for different levels of dynamism with edge insertions and deletions, while they are much less considered for directed graphs. In this paper, we propose incremental solutions of CS based on the D-truss in dynamic directed graphs, where the D-truss is a cohesive subgraph structure defined based on two types of triangles in directed graphs. We first analyze the theoretical boundedness of D-truss given edge insertions and deletions, then we present basic single-update algorithms. To improve the efficiency, we propose an order-based D-Index, associated batch-update algorithms and a fully-dynamic query algorithm. Our extensive experiments on real-world graphs show that our proposed solution achieves a significant speedup compared to the SOTA solution, the scalability over updates is also verified.
动态有向图中的最大d -桁架搜索
社区搜索(CS)的目标是个性化的子图发现,这是理解许多现实世界网络组织的关键。无向网络中的CS引起了研究人员的极大关注,包括许多针对各种内聚子图结构和不同水平的动态边缘插入和删除的解决方案,而有向图中的CS则很少被考虑。本文提出了基于动态有向图中d -桁架的CS增量解,其中d -桁架是基于有向图中两类三角形定义的内聚子图结构。首先分析了给定边缘插入和删除的d -桁架的理论有界性,然后给出了基本的单次更新算法。为了提高效率,我们提出了基于顺序的D-Index、相关的批量更新算法和全动态查询算法。我们在真实图形上的大量实验表明,与SOTA解决方案相比,我们提出的解决方案实现了显着的加速,并且还验证了更新的可扩展性。
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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