2020
DOI: 10.1007/978-3-030-62230-5_5
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Representing Decision-Makers in SGAM-H: The Smart Grid Architecture Model Extended with the Human Layer

Abstract: The safety and security of critical infrastructures is both a technical and a social issue. However, most risk analysis methods focus predominantly on technical aspects and ignore the impact strategic human decisions have on the behavior of systems. Furthermore, the high degree of complexity and lack of historical data for probability estimations in case of new and emerging systems seriously limit the practical utility of traditional risk analysis methods. The Conflicting Incentives Risk Analysis (CIRA) method… Show more

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Cited by 6 publications
(5 citation statements)
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“…Understanding the role of insider threats [22,49] and human factors [50,51] in smart-grid cybersecurity is an emerging area of research. These studies investigate the impact of human behavior [52,53], social engineering [54,55], training and awareness programs [56,57], and policy frameworks to address the human element in cybersecurity [58,59]. Given the large amount of data generated by smart grids, the research has focused on secure data management, privacy-preserving techniques, and anonymization approaches to protect sensitive information while enabling data analysis for grid optimization and energy management [60,61].…”
Section: Existing Researchmentioning
confidence: 99%
“…Understanding the role of insider threats [22,49] and human factors [50,51] in smart-grid cybersecurity is an emerging area of research. These studies investigate the impact of human behavior [52,53], social engineering [54,55], training and awareness programs [56,57], and policy frameworks to address the human element in cybersecurity [58,59]. Given the large amount of data generated by smart grids, the research has focused on secure data management, privacy-preserving techniques, and anonymization approaches to protect sensitive information while enabling data analysis for grid optimization and energy management [60,61].…”
Section: Existing Researchmentioning
confidence: 99%
“…To cope with this complexity, the knowledge, and data must be provided in a standardized way [2,7]. In the Smart Grid area, the SGAM together with the IEC 62559-2 Use Case Methodology for Requirements Engineering [15] is the common standardization tool [13]. The central intention is to bring different elements and systems in consistency.…”
Section: The Smart Grid Architecture Model (Sgam)mentioning
confidence: 99%
“…Research has already started to draw attention to the need of considering stakeholders because of their neglect in the SGAM. Previous research [13] suggests the integration of human decisionmakers, which are not represented in SGAM. By combining CIRA, a risk analysis method, and SGAM, the authors present an additional human layer (SGAM-H).…”
Section: Introductionmentioning
confidence: 99%
“…This finding is also shown in the EU Bridge project [12], where the importance of digital applications and data privacy is highlighted within the smart grids context. Furthermore, in [13], a modified version of SGAM was proposed to highlight the relevance of human decisions, separating human actors from the rest of entities reflected in SGAM. In addition, the approach shown by [14] describes the need of considering computational models within SGAM to achieve a coordinated view of issues such as control, optimization, and data analytics.…”
Section: Introductionmentioning
confidence: 99%