Understanding the Contribution of Recommendation Algorithms on Misinformation Recommendation and Misinformation Dissemination on Social Networks

IF 2.6 4区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

ACM Transactions on the Web Pub Date : 2023-08-14 DOI:10.1145/3616088

Royal Pathak, Francesca Spezzano, M. S. Pera

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引用次数: 0

Abstract

Social networks are a platform for individuals and organizations to connect with each other and inform, advertise, spread ideas, and ultimately influence opinions. These platforms have been known to propel misinformation. We argue that this could be compounded by the recommender algorithms that these platforms use to suggest items potentially of interest to their users, given the known biases and filter bubbles issues affecting recommender systems. While much has been studied about misinformation on social networks, the potential exacerbation that could result from recommender algorithms in this environment is in its infancy. In this manuscript, we present the result of an in-depth analysis conducted on two datasets (Politifact FakeNewsNet dataset and HealthStory FakeHealth dataset) in order to deepen our understanding of the interconnection between recommender algorithms and misinformation spread on Twitter. In particular, we explore the degree to which well-known recommendation algorithms are prone to be impacted by misinformation. Via simulation, we also study misinformation diffusion on social networks, as triggered by suggestions produced by these recommendation algorithms. Outcomes from this work evidence that misinformation does not equally affect all recommendation algorithms. Popularity-based and network-based recommender algorithms contribute the most to misinformation diffusion. Users who are known to be superspreaders are known to directly impact algorithmic performance and misinformation spread in specific scenarios. Findings emerging from our exploration result in a number of implications for researchers and practitioners to consider when designing and deploying recommender algorithms in social networks.

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理解推荐算法对社交网络虚假信息推荐和传播的贡献

社交网络是个人和组织相互联系、提供信息、做广告、传播想法并最终影响意见的平台。众所周知，这些平台会传播错误信息。我们认为，考虑到影响推荐系统的已知偏见和过滤泡沫问题，这些平台用来推荐用户可能感兴趣的项目的推荐算法可能会加剧这种情况。尽管人们对社交网络上的错误信息进行了大量研究，但在这种环境下，推荐算法可能导致的潜在恶化仍处于初级阶段。在这份手稿中，我们介绍了对两个数据集（Politifact FakeNewsNet数据集和HealthStory FakeHealth数据集）进行的深入分析的结果，以加深我们对推荐算法和推特上传播的错误信息之间的相互联系的理解。特别是，我们探讨了众所周知的推荐算法容易受到错误信息影响的程度。通过模拟，我们还研究了由这些推荐算法产生的建议引发的社交网络上的错误信息传播。这项工作的结果证明，错误信息并不会同样影响所有的推荐算法。基于流行度和基于网络的推荐算法对错误信息的传播贡献最大。众所周知，超级传播者用户会直接影响算法性能和特定场景中的错误信息传播。我们的探索结果为研究人员和从业者在社交网络中设计和部署推荐算法带来了许多启示。

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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来源期刊

ACM Transactions on the Web 工程技术-计算机：软件工程

CiteScore

4.90

自引率

0.00%

发文量

审稿时长

7.5 months

期刊介绍： Transactions on the Web (TWEB) is a journal publishing refereed articles reporting the results of research on Web content, applications, use, and related enabling technologies. Topics in the scope of TWEB include but are not limited to the following: Browsers and Web Interfaces; Electronic Commerce; Electronic Publishing; Hypertext and Hypermedia; Semantic Web; Web Engineering; Web Services; and Service-Oriented Computing XML. In addition, papers addressing the intersection of the following broader technologies with the Web are also in scope: Accessibility; Business Services Education; Knowledge Management and Representation; Mobility and pervasive computing; Performance and scalability; Recommender systems; Searching, Indexing, Classification, Retrieval and Querying, Data Mining and Analysis; Security and Privacy; and User Interfaces. Papers discussing specific Web technologies, applications, content generation and management and use are within scope. Also, papers describing novel applications of the web as well as papers on the underlying technologies are welcome.