Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities

Lane H. Rogers; Emma J. Reid; Robert Bridges

doi:10.1109/SPW67851.2025.00026

Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities

Lane H. Rogers, Emma J. Reid, Robert Bridges

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Social influence plays a significant role in shaping individual sentiments and actions, particularly in a world of ubiquitous digital interconnection. The rapid development of generative artificial intelligence (AI) has given rise to well-founded concerns regarding the potential implementation of radicalization techniques in social media. Motivated by these developments, we present a case study investigating the effects of small but intentional perturbations on a simple social network. We employ Taylor's classic model of social influence and tools from robust control theory (most notably the Dynamical Structure Function (DSF)), to identify perturbations that qualitatively alter the system's behavior while remaining as unobtrusive as possible. We examine two such scenarios: perturbations to an existing link and perturbations that introduce a new link to the network. In each case, we identify destabilizing perturbations of minimal norm and simulate their effects. Remarkably, we find that small but targeted alterations to network structure may lead to the radicalization of all agents, exhibiting the potential for large-scale shifts in collective behavior to be triggered by comparatively minuscule adjustments in social influence. Given that this method of identifying perturbations that are innocuous yet destabilizing applies to any suitable dynamical system, our findings emphasize a need for similar analyses to be carried out on real systems (e.g., real social networks), to identify the places where such dynamics may already exist.

Original language	English
Title of host publication	Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025
Editors	Marina Blanton, William Enck, Cristina Nita-Rotaru
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	199-205
Number of pages	7
ISBN (Electronic)	9798331566432
DOIs	https://doi.org/10.1109/SPW67851.2025.00026
State	Published - 2025
Event	46th IEEE Symposium on Security and Privacy Workshops, SPW 2025 - San Francisco, United States Duration: May 12 2025 → May 15 2025

Publication series

Name	Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025

Conference

Conference	46th IEEE Symposium on Security and Privacy Workshops, SPW 2025
Country/Territory	United States
City	San Francisco
Period	05/12/25 → 05/15/25

Funding

Thank you to Sean Warnick for his guidance throughout this project and to Ben Francis for his advice on marginal stability. The research in this presentation was conducted with the U.S. Department of Homeland Security (DHS) Science and Technology Directorate (S&T) under contract 70RSAT23KPM000049 and also by AI Sweden's Security Consortium and Vinnova, Sweden's Innovation Agency. Any opinions contained herein are those of the authors and do not necessarily reflect those of DHS S&T.

Keywords

control theory
dynamical structure function
feedback
social network
stability

Access to Document

10.1109/SPW67851.2025.00026

Cite this

Rogers, L. H., Reid, E. J., & Bridges, R. (2025). Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities. In M. Blanton, W. Enck, & C. Nita-Rotaru (Eds.), Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025 (pp. 199-205). (Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SPW67851.2025.00026

Rogers, Lane H. ; Reid, Emma J. ; Bridges, Robert. / Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities. Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025. editor / Marina Blanton ; William Enck ; Cristina Nita-Rotaru. Institute of Electrical and Electronics Engineers Inc., 2025. pp. 199-205 (Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025).

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abstract = "Social influence plays a significant role in shaping individual sentiments and actions, particularly in a world of ubiquitous digital interconnection. The rapid development of generative artificial intelligence (AI) has given rise to well-founded concerns regarding the potential implementation of radicalization techniques in social media. Motivated by these developments, we present a case study investigating the effects of small but intentional perturbations on a simple social network. We employ Taylor's classic model of social influence and tools from robust control theory (most notably the Dynamical Structure Function (DSF)), to identify perturbations that qualitatively alter the system's behavior while remaining as unobtrusive as possible. We examine two such scenarios: perturbations to an existing link and perturbations that introduce a new link to the network. In each case, we identify destabilizing perturbations of minimal norm and simulate their effects. Remarkably, we find that small but targeted alterations to network structure may lead to the radicalization of all agents, exhibiting the potential for large-scale shifts in collective behavior to be triggered by comparatively minuscule adjustments in social influence. Given that this method of identifying perturbations that are innocuous yet destabilizing applies to any suitable dynamical system, our findings emphasize a need for similar analyses to be carried out on real systems (e.g., real social networks), to identify the places where such dynamics may already exist.",

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Rogers, LH, Reid, EJ & Bridges, R 2025, Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities. in M Blanton, W Enck & C Nita-Rotaru (eds), Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025. Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025, Institute of Electrical and Electronics Engineers Inc., pp. 199-205, 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025, San Francisco, United States, 05/12/25. https://doi.org/10.1109/SPW67851.2025.00026

Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities. / Rogers, Lane H.; Reid, Emma J.; Bridges, Robert.
Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025. ed. / Marina Blanton; William Enck; Cristina Nita-Rotaru. Institute of Electrical and Electronics Engineers Inc., 2025. p. 199-205 (Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Reid, Emma J.

AU - Bridges, Robert

PY - 2025

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N2 - Social influence plays a significant role in shaping individual sentiments and actions, particularly in a world of ubiquitous digital interconnection. The rapid development of generative artificial intelligence (AI) has given rise to well-founded concerns regarding the potential implementation of radicalization techniques in social media. Motivated by these developments, we present a case study investigating the effects of small but intentional perturbations on a simple social network. We employ Taylor's classic model of social influence and tools from robust control theory (most notably the Dynamical Structure Function (DSF)), to identify perturbations that qualitatively alter the system's behavior while remaining as unobtrusive as possible. We examine two such scenarios: perturbations to an existing link and perturbations that introduce a new link to the network. In each case, we identify destabilizing perturbations of minimal norm and simulate their effects. Remarkably, we find that small but targeted alterations to network structure may lead to the radicalization of all agents, exhibiting the potential for large-scale shifts in collective behavior to be triggered by comparatively minuscule adjustments in social influence. Given that this method of identifying perturbations that are innocuous yet destabilizing applies to any suitable dynamical system, our findings emphasize a need for similar analyses to be carried out on real systems (e.g., real social networks), to identify the places where such dynamics may already exist.

AB - Social influence plays a significant role in shaping individual sentiments and actions, particularly in a world of ubiquitous digital interconnection. The rapid development of generative artificial intelligence (AI) has given rise to well-founded concerns regarding the potential implementation of radicalization techniques in social media. Motivated by these developments, we present a case study investigating the effects of small but intentional perturbations on a simple social network. We employ Taylor's classic model of social influence and tools from robust control theory (most notably the Dynamical Structure Function (DSF)), to identify perturbations that qualitatively alter the system's behavior while remaining as unobtrusive as possible. We examine two such scenarios: perturbations to an existing link and perturbations that introduce a new link to the network. In each case, we identify destabilizing perturbations of minimal norm and simulate their effects. Remarkably, we find that small but targeted alterations to network structure may lead to the radicalization of all agents, exhibiting the potential for large-scale shifts in collective behavior to be triggered by comparatively minuscule adjustments in social influence. Given that this method of identifying perturbations that are innocuous yet destabilizing applies to any suitable dynamical system, our findings emphasize a need for similar analyses to be carried out on real systems (e.g., real social networks), to identify the places where such dynamics may already exist.

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PB - Institute of Electrical and Electronics Engineers Inc.

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Rogers LH, Reid EJ, Bridges R. Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities. In Blanton M, Enck W, Nita-Rotaru C, editors, Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025. Institute of Electrical and Electronics Engineers Inc. 2025. p. 199-205. (Proceedings - 46th IEEE Symposium on Security and Privacy Workshops, SPW 2025). doi: 10.1109/SPW67851.2025.00026

Destabilizing a Social Network Model via Intrinsic Feedback Vulnerabilities

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