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Autori principali: Fang, Qiangpeng, Shi, Jilong, Rui, Xiaobin, Zhang, Jian, Wang, Zhixiao
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2601.22584
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author Fang, Qiangpeng
Shi, Jilong
Rui, Xiaobin
Zhang, Jian
Wang, Zhixiao
author_facet Fang, Qiangpeng
Shi, Jilong
Rui, Xiaobin
Zhang, Jian
Wang, Zhixiao
contents Influence Blocking Maximization (IBM) aims to select a positive seed set to suppress the spread of negative influence. However, existing IBM methods focus solely on maximizing blocking effectiveness, overlooking fairness across communities. To address this issue, we formalize fairness in IBM and justify Demographic Parity (DP) as a notion that is particularly well aligned with its semantics. Yet enforcing DP is computationally challenging: prior work typically formulates DP as a Linear Programming (LP) problem and relies on costly solvers, rendering them impractical for large-scale networks. In this paper, we propose a DP-aware objective while maintaining an approximately monotonic submodular structure, enabling efficient optimization with theoretical guarantees. We integrate this objective with blocking effectiveness through a tunable scalarization, yielding a principled fairness-effectiveness trade-offs. Building on this structure, we develop CELF-R, an accelerated seed selection algorithm that exploits approximate submodularity to eliminate redundant evaluations and naturally supports Pareto front construction. Extensive experiments demonstrate that CELF-R consistently outperforms state-of-the-art baselines, achieving a $(1-1/e-ψ)$-approximate solution while maintaining high efficiency.
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publishDate 2026
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spellingShingle Scalable Fair Influence Blocking Maximization via Approximately Monotonic Submodular Optimization
Fang, Qiangpeng
Shi, Jilong
Rui, Xiaobin
Zhang, Jian
Wang, Zhixiao
Data Structures and Algorithms
Influence Blocking Maximization (IBM) aims to select a positive seed set to suppress the spread of negative influence. However, existing IBM methods focus solely on maximizing blocking effectiveness, overlooking fairness across communities. To address this issue, we formalize fairness in IBM and justify Demographic Parity (DP) as a notion that is particularly well aligned with its semantics. Yet enforcing DP is computationally challenging: prior work typically formulates DP as a Linear Programming (LP) problem and relies on costly solvers, rendering them impractical for large-scale networks. In this paper, we propose a DP-aware objective while maintaining an approximately monotonic submodular structure, enabling efficient optimization with theoretical guarantees. We integrate this objective with blocking effectiveness through a tunable scalarization, yielding a principled fairness-effectiveness trade-offs. Building on this structure, we develop CELF-R, an accelerated seed selection algorithm that exploits approximate submodularity to eliminate redundant evaluations and naturally supports Pareto front construction. Extensive experiments demonstrate that CELF-R consistently outperforms state-of-the-art baselines, achieving a $(1-1/e-ψ)$-approximate solution while maintaining high efficiency.
title Scalable Fair Influence Blocking Maximization via Approximately Monotonic Submodular Optimization
topic Data Structures and Algorithms
url https://arxiv.org/abs/2601.22584