TY - GEN
T1 - A feature-driven approach for identifying pathogenic social media accounts
AU - Alvari, Hamidreza
AU - Beigi, Ghazaleh
AU - Sarkar, Soumajyoti
AU - Ruston, Scott W.
AU - Corman, Steven R.
AU - Davulcu, Hasan
AU - Shakarian, Paulo
N1 - Funding Information:
Present Work. In this work, we aim to present an automatic feature-driven approach for detecting PSM accounts in social media. Inspired by the literature, we set out to assess PSMs from three broad perspectives: (1) user-related information (e.g., user activity metrics, profile characteristics), (2) source-related information (e.g., information linked via URLs) and (3) content-related information (e.g., tweets characteristics). For the user-related information, we investigate malicious signals using 1) causality analysis (i.e., if user is frequently a cause of viral cascades) [5] and 2) profile characteristics (e.g., number of followers, etc.) [31] aspects of view. For the source-related information, we explore various properties that characterize the type of information being linked to URLs (e.g., URL address, content of the associated website, etc.) [7], [35], [22], [34], [30]. Finally, for the content-related information, we examine attributes from tweets (e.g., number of hashtags, certain hashtags, etc.) posted by users [31]. This paper describes the results of research conducted by Arizona State Universitys Global Security Initiative and Center for Strategic Communication. Research support funding was provided by the US State Department Global Engagement Center.
Funding Information:
VII. ACKNOWLEDGEMENTS This work was supported in part by a grant from the United States Department of State, grant number SGECPD18GR0010.
Publisher Copyright:
© 2020 IEEE.
PY - 2020/6
Y1 - 2020/6
N2 - Over the past few years, we have observed different media outlets' attempts to shift public opinion by framing information to support a narrative that facilitate their goals. Malicious users referred to as 'pathogenic social media' (PSM) accounts are more likely to amplify this phenomena by spreading misinformation to viral proportions. Understanding the spread of misinformation from account-level perspective is thus a pressing problem. In this work, we aim to present a feature-driven approach to detect PSM accounts in social media. Inspired by the literature, we set out to assess PSMs from three broad perspectives: (1) user-related information (e.g., user activity, profile characteristics), (2) source-related information (i.e., information linked via URLs shared by users) and (3) content-related information (e.g., tweets characteristics). For the user-related information, we investigate malicious signals using causality analysis (i.e., if user is frequently a cause of viral cascades) and profile characteristics (e.g., number of followers, etc.). For the source-related information, we explore various malicious properties linked to URLs (e.g., URL address, content of the associated website, etc.). Finally, for the content-related information, we examine attributes (e.g., number of hashtags, suspicious hashtags, etc.) from tweets posted by users. Experiments on real-world Twitter data from different countries demonstrate the effectiveness of the proposed approach in identifying PSM users.
AB - Over the past few years, we have observed different media outlets' attempts to shift public opinion by framing information to support a narrative that facilitate their goals. Malicious users referred to as 'pathogenic social media' (PSM) accounts are more likely to amplify this phenomena by spreading misinformation to viral proportions. Understanding the spread of misinformation from account-level perspective is thus a pressing problem. In this work, we aim to present a feature-driven approach to detect PSM accounts in social media. Inspired by the literature, we set out to assess PSMs from three broad perspectives: (1) user-related information (e.g., user activity, profile characteristics), (2) source-related information (i.e., information linked via URLs shared by users) and (3) content-related information (e.g., tweets characteristics). For the user-related information, we investigate malicious signals using causality analysis (i.e., if user is frequently a cause of viral cascades) and profile characteristics (e.g., number of followers, etc.). For the source-related information, we explore various malicious properties linked to URLs (e.g., URL address, content of the associated website, etc.). Finally, for the content-related information, we examine attributes (e.g., number of hashtags, suspicious hashtags, etc.) from tweets posted by users. Experiments on real-world Twitter data from different countries demonstrate the effectiveness of the proposed approach in identifying PSM users.
KW - Feature-Driven
KW - Malicious behavior
KW - Misinformation
KW - Pathogenic Users
UR - http://www.scopus.com/inward/record.url?scp=85100608803&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85100608803&partnerID=8YFLogxK
U2 - 10.1109/ICDIS50059.2020.00010
DO - 10.1109/ICDIS50059.2020.00010
M3 - Conference contribution
AN - SCOPUS:85100608803
T3 - Proceedings - 2020 3rd International Conference on Data Intelligence and Security, ICDIS 2020
SP - 26
EP - 33
BT - Proceedings - 2020 3rd International Conference on Data Intelligence and Security, ICDIS 2020
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 3rd International Conference on Data Intelligence and Security, ICDIS 2020
Y2 - 10 November 2020 through 12 November 2020
ER -