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Main Authors: Qiu, Hongbo, Sun, Renjie, chen, Chen, Wang, Xiaoyang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.11090
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author Qiu, Hongbo
Sun, Renjie
chen, Chen
Wang, Xiaoyang
author_facet Qiu, Hongbo
Sun, Renjie
chen, Chen
Wang, Xiaoyang
contents With the rapid growth of online social networks, strengthening their stability has emerged as a key research focus. This study aims to identify influential relationships that significantly impact community stability. In this paper, we introduce and explore the anchor trussness reinforcement problem to reinforce the overall user engagement of networks by anchoring some edges. Specifically, for a given graph $G$ and a budget $b$, we aim to identify $b$ edges whose anchoring maximizes the trussness gain, which is the cumulative increment of trussness across all edges in $G$. We establish the NP-hardness of the problem. To address this problem, we introduce a greedy framework that iteratively selects the current best edge. To scale for larger networks, we first propose an upward-route method to constrain potential trussness increment edges. Augmented with a support check strategy, this approach enables the efficient computation of the trussness gain for anchoring one edge. Then, we design a classification tree structure to minimize redundant computations in each iteration by organizing edges based on their trussness. We conduct extensive experiments on 8 real-world networks to validate the efficiency and effectiveness of the proposed model and methods.
format Preprint
id arxiv_https___arxiv_org_abs_2507_11090
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Enhance Stability of Network by Edge Anchor
Qiu, Hongbo
Sun, Renjie
chen, Chen
Wang, Xiaoyang
Social and Information Networks
With the rapid growth of online social networks, strengthening their stability has emerged as a key research focus. This study aims to identify influential relationships that significantly impact community stability. In this paper, we introduce and explore the anchor trussness reinforcement problem to reinforce the overall user engagement of networks by anchoring some edges. Specifically, for a given graph $G$ and a budget $b$, we aim to identify $b$ edges whose anchoring maximizes the trussness gain, which is the cumulative increment of trussness across all edges in $G$. We establish the NP-hardness of the problem. To address this problem, we introduce a greedy framework that iteratively selects the current best edge. To scale for larger networks, we first propose an upward-route method to constrain potential trussness increment edges. Augmented with a support check strategy, this approach enables the efficient computation of the trussness gain for anchoring one edge. Then, we design a classification tree structure to minimize redundant computations in each iteration by organizing edges based on their trussness. We conduct extensive experiments on 8 real-world networks to validate the efficiency and effectiveness of the proposed model and methods.
title Enhance Stability of Network by Edge Anchor
topic Social and Information Networks
url https://arxiv.org/abs/2507.11090