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Main Authors: Sen, Omer, Aust, Yanico, Neumuller, Martin, Hacker, Immanuel, Ulbig, Andreas
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.06254
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author Sen, Omer
Aust, Yanico
Neumuller, Martin
Hacker, Immanuel
Ulbig, Andreas
author_facet Sen, Omer
Aust, Yanico
Neumuller, Martin
Hacker, Immanuel
Ulbig, Andreas
contents The modernization of power grid infrastructures necessitates the incorporation of decision support systems to effectively mitigate cybersecurity threats. This paper presents a comprehensive framework based on integrating Attack-Defense Trees and the Multi-Criteria Decision Making method to enhance smart grid cybersecurity. By analyzing risk attributes and optimizing defense strategies, this framework enables grid operators to prioritize critical security measures. Additionally, this paper incorporates findings on decision-making processes in intelligent power systems to present a comprehensive approach to grid cybersecurity. The proposed model aims to optimize the effectiveness and efficiency of grid cybersecurity efforts while offering insights into future grid management challenges.
format Preprint
id arxiv_https___arxiv_org_abs_2412_06254
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Towards a Comprehensive Framework for Cyber-Incident Response Decision Support in Smart Grids
Sen, Omer
Aust, Yanico
Neumuller, Martin
Hacker, Immanuel
Ulbig, Andreas
Cryptography and Security
The modernization of power grid infrastructures necessitates the incorporation of decision support systems to effectively mitigate cybersecurity threats. This paper presents a comprehensive framework based on integrating Attack-Defense Trees and the Multi-Criteria Decision Making method to enhance smart grid cybersecurity. By analyzing risk attributes and optimizing defense strategies, this framework enables grid operators to prioritize critical security measures. Additionally, this paper incorporates findings on decision-making processes in intelligent power systems to present a comprehensive approach to grid cybersecurity. The proposed model aims to optimize the effectiveness and efficiency of grid cybersecurity efforts while offering insights into future grid management challenges.
title Towards a Comprehensive Framework for Cyber-Incident Response Decision Support in Smart Grids
topic Cryptography and Security
url https://arxiv.org/abs/2412.06254