利用组合本地特征和基于深度学习的节点嵌入,最大化社交网络中的影响力。

IF 2.6 4区 计算机科学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Big Data Pub Date : 2024-10-22 DOI:10.1089/big.2023.0117
Asgarali Bouyer, Hamid Ahmadi Beni, Amin Golzari Oskouei, Alireza Rouhi, Bahman Arasteh, Xiaoyang Liu
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引用次数: 0

摘要

影响最大化问题有几个问题,包括低感染率和高时间复杂性。由于时间复杂性或自由参数的使用,许多建议的方法都不适合大规模网络。为了应对这些挑战,本文提出了一种名为 "影响力最大化嵌入技术"(ETIM)的局部启发式算法,该算法使用壳分解、图嵌入和还原,并结合了局部结构特征。该算法根据网络壳之间的连接和拓扑特征选择候选节点,从而减少了搜索空间和计算开销。它使用基于深度学习的节点嵌入技术创建候选节点的多维向量,并根据本地拓扑特征计算每个节点对传播的依赖性。最后,利用前一阶段的结果和新定义的本地特征识别出有影响力的节点。利用独立级联模型对所提出的算法进行了评估,结果表明该算法具有竞争力,能够在解决方案质量方面达到最佳性能。与集体影响全局算法相比,ETIM 的速度明显更快,感染率平均提高了 12%。
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Maximizing Influence in Social Networks Using Combined Local Features and Deep Learning-Based Node Embedding.

The influence maximization problem has several issues, including low infection rates and high time complexity. Many proposed methods are not suitable for large-scale networks due to their time complexity or free parameter usage. To address these challenges, this article proposes a local heuristic called Embedding Technique for Influence Maximization (ETIM) that uses shell decomposition, graph embedding, and reduction, as well as combined local structural features. The algorithm selects candidate nodes based on their connections among network shells and topological features, reducing the search space and computational overhead. It uses a deep learning-based node embedding technique to create a multidimensional vector of candidate nodes and calculates the dependency on spreading for each node based on local topological features. Finally, influential nodes are identified using the results of the previous phases and newly defined local features. The proposed algorithm is evaluated using the independent cascade model, showing its competitiveness and ability to achieve the best performance in terms of solution quality. Compared with the collective influence global algorithm, ETIM is significantly faster and improves the infection rate by an average of 12%.

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来源期刊
Big Data
Big Data COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-COMPUTER SCIENCE, THEORY & METHODS
CiteScore
9.10
自引率
2.20%
发文量
60
期刊介绍: Big Data is the leading peer-reviewed journal covering the challenges and opportunities in collecting, analyzing, and disseminating vast amounts of data. The Journal addresses questions surrounding this powerful and growing field of data science and facilitates the efforts of researchers, business managers, analysts, developers, data scientists, physicists, statisticians, infrastructure developers, academics, and policymakers to improve operations, profitability, and communications within their businesses and institutions. Spanning a broad array of disciplines focusing on novel big data technologies, policies, and innovations, the Journal brings together the community to address current challenges and enforce effective efforts to organize, store, disseminate, protect, manipulate, and, most importantly, find the most effective strategies to make this incredible amount of information work to benefit society, industry, academia, and government. Big Data coverage includes: Big data industry standards, New technologies being developed specifically for big data, Data acquisition, cleaning, distribution, and best practices, Data protection, privacy, and policy, Business interests from research to product, The changing role of business intelligence, Visualization and design principles of big data infrastructures, Physical interfaces and robotics, Social networking advantages for Facebook, Twitter, Amazon, Google, etc, Opportunities around big data and how companies can harness it to their advantage.
期刊最新文献
DMHANT: DropMessage Hypergraph Attention Network for Information Propagation Prediction. Maximizing Influence in Social Networks Using Combined Local Features and Deep Learning-Based Node Embedding. A Weighted GraphSAGE-Based Context-Aware Approach for Big Data Access Control. Attribute-Based Adaptive Homomorphic Encryption for Big Data Security. Hybrid Deep Learning Approach for Traffic Speed Prediction.
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