Modeling the social influence of COVID-19 via personalized propagation with deep learning.

IF 2.7 3区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

World Wide Web-Internet and Web Information Systems Pub Date : 2022-12-17 DOI:10.1007/s11280-022-01129-9

Yufei Liu, Jie Cao, Jia Wu, Dechang Pi

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引用次数: 0

Abstract

Social influence prediction has permeated many domains, including marketing, behavior prediction, recommendation systems, and more. However, traditional methods of predicting social influence not only require domain expertise, they also rely on extracting user features, which can be very tedious. Additionally, graph convolutional networks (GCNs), which deals with graph data in non-Euclidean space, are not directly applicable to Euclidean space. To overcome these problems, we extended DeepInf such that it can predict the social influence of COVID-19 via the transition probability of the page rank domain. Furthermore, our implementation gives rise to a deep learning-based personalized propagation algorithm, called DeepPP. The resulting algorithm combines the personalized propagation of a neural prediction model with the approximate personalized propagation of a neural prediction model from page rank analysis. Four social networks from different domains as well as two COVID-19 datasets were used to analyze the proposed algorithm's efficiency and effectiveness. Compared to other baseline methods, DeepPP provides more accurate social influence predictions. Further, experiments demonstrate that DeepPP can be applied to real-world prediction data for COVID-19.

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通过深度学习的个性化传播对 COVID-19 的社会影响力进行建模。

社会影响力预测已经渗透到许多领域，包括市场营销、行为预测、推荐系统等。然而，预测社会影响力的传统方法不仅需要领域专业知识，还依赖于提取用户特征，这可能非常繁琐。此外，处理非欧几里得空间图数据的图卷积网络（GCN）并不能直接适用于欧几里得空间。为了克服这些问题，我们对 DeepInf 进行了扩展，使其能够通过页面排名域的过渡概率预测 COVID-19 的社会影响力。此外，我们的实现还产生了一种基于深度学习的个性化传播算法，称为 DeepPP。该算法将神经预测模型的个性化传播与来自页面排名分析的神经预测模型的近似个性化传播相结合。我们使用了四个不同领域的社交网络以及两个 COVID-19 数据集来分析所提出算法的效率和效果。与其他基准方法相比，DeepPP 提供了更准确的社会影响力预测。此外，实验证明 DeepPP 可以应用于 COVID-19 的真实世界预测数据。

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来源期刊

World Wide Web-Internet and Web Information Systems 工程技术-计算机：软件工程

CiteScore

7.30

自引率

10.80%

发文量

131

审稿时长

6 months

期刊介绍： World Wide Web: Internet and Web Information Systems (WWW) is an international, archival, peer-reviewed journal which covers all aspects of the World Wide Web, including issues related to architectures, applications, Internet and Web information systems, and communities. The purpose of this journal is to provide an international forum for researchers, professionals, and industrial practitioners to share their rapidly developing knowledge and report on new advances in Internet and web-based systems. The journal also focuses on all database- and information-system topics that relate to the Internet and the Web, particularly on ways to model, design, develop, integrate, and manage these systems. Appearing quarterly, the journal publishes (1) papers describing original ideas and new results, (2) vision papers, (3) reviews of important techniques in related areas, (4) innovative application papers, and (5) progress reports on major international research projects. Papers published in the WWW journal deal with subjects directly or indirectly related to the World Wide Web. The WWW journal provides timely, in-depth coverage of the most recent developments in the World Wide Web discipline to enable anyone involved to keep up-to-date with this dynamically changing technology.