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Mind the Gap: Securely modeling cyber risk based on security deviations from a peer group

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  • Taylor Reynolds
  • Sarah Scheffler
  • Daniel J. Weitzner
  • Angelina Wu

Abstract

There are two strategic and longstanding questions about cyber risk that organizations largely have been unable to answer: What is an organization's estimated risk exposure and how does its security compare with peers? Answering both requires industry-wide data on security posture, incidents, and losses that, until recently, have been too sensitive for organizations to share. Now, privacy enhancing technologies (PETs) such as cryptographic computing can enable the secure computation of aggregate cyber risk metrics from a peer group of organizations while leaving sensitive input data undisclosed. As these new aggregate data become available, analysts need ways to integrate them into cyber risk models that can produce more reliable risk assessments and allow comparison to a peer group. This paper proposes a new framework for benchmarking cyber posture against peers and estimating cyber risk within specific economic sectors using the new variables emerging from secure computations. We introduce a new top-line variable called the Defense Gap Index representing the weighted security gap between an organization and its peers that can be used to forecast an organization's own security risk based on historical industry data. We apply this approach in a specific sector using data collected from 25 large firms, in partnership with an industry ISAO, to build an industry risk model and provide tools back to participants to estimate their own risk exposure and privately compare their security posture with their peers.

Suggested Citation

  • Taylor Reynolds & Sarah Scheffler & Daniel J. Weitzner & Angelina Wu, 2024. "Mind the Gap: Securely modeling cyber risk based on security deviations from a peer group," Papers 2402.04166, arXiv.org.
    • Handle: RePEc:arx:papers:2402.04166
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    References listed on IDEAS

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    1. Emmanuel A. Abbe & Amir E. Khandani & Andrew W. Lo, 2012. "Privacy-Preserving Methods for Sharing Financial Risk Exposures," American Economic Review, American Economic Association, vol. 102(3), pages 65-70, May.
    2. Arunabha Mukhopadhyay & Samir Chatterjee & Kallol K. Bagchi & Peteer J. Kirs & Girja K. Shukla, 2019. "Cyber Risk Assessment and Mitigation (CRAM) Framework Using Logit and Probit Models for Cyber Insurance," Information Systems Frontiers, Springer, vol. 21(5), pages 997-1018, October.
    3. Ramakrishna Ayyagari, 2012. "An Exploratory Analysis of Data Breaches from 2005-2011: Trends and Insights," Journal of Information Privacy and Security, Taylor & Francis Journals, vol. 8(2), pages 33-56, April.
    4. Eling, Martin & Wirfs, Jan, 2019. "What are the actual costs of cyber risk events?," European Journal of Operational Research, Elsevier, vol. 272(3), pages 1109-1119.
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