Betty Biringer, Eric Vugrin, Drake Warren

Critical Infrastructure System Security and Resiliency (eBook, PDF)

• Format: PDF

Produktbeschreibung

Security protections for critical infrastructure nodes are intended to minimize the risks resulting from an initiating event, whether it is an intentional malevolent act or a natural hazard. With an emphasis on protecting an infrastructure's ability to perform its mission or function, Critical Infrastructure System Security and Resiliency presents

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Produktdetails

• Verlag: Taylor & Francis eBooks
• Seitenzahl: 229
• Erscheinungstermin: 12. April 2013
• Englisch
• ISBN-13: 9781466557512
• Artikelnr.: 39142814

Autorenporträt

Betty E. Biringer is a mathematician currently conducting specialized technical assessments and research in the national interest as a distinguished member of the technical staff at Sandia National Laboratories. As the former manager of the Security Risk Assessment Department, she provided oversight and technical guidance for Sandia's modeling and simulation tools for physical security vulnerability analyses and risk assessments. Ms. Biringer was actively involved in the development and implementation of most of Sandia's service-marked Risk Assessment Methodology (RAM) tools for critical infrastructure elements, including dams, high-voltage electric power transmission, chemical facilities, communities, and energy. She has served as a subject matter expert for security risk on review panels for the Department of Homeland Security's National Centers of Excellence. Her other primary research area is the development of methodologies for the assessment and mitigation of the insider threat.

Dr. Eric D. Vugrin is currently a distinguished member of the technical staff in the Resilience and Regulatory Effects Department at Sandia National Laboratories. His primary research interest is the development of analytical tools and methods for infrastructure analysis. Most recently, his research has focused on capability development for vulnerability, consequence, and resilience analysis of chemical supply chains, transportation networks, electrical power systems, and other infrastructure networks. These efforts provided support and guidance to the U.S. Department of Homeland Security's Infrastructure Protection, Science and Technology, and Policy programs. Prior to his work in the area of infrastructure analysis, he performed risk analyses for complex systems as Sandia's technical lead for Total Systems Performance Assessment at the Waste Isolation Pilot Plant, the worlds only certified, deep-underground repository for nuclear waste.

Inhaltsangabe

Security Risk Assessment. Introduction to Security Risk Assessment.
Undesired Events, Associated Critical Assets, and Available Resources.
Threat Analysis. Likelihood of Initiating Events. Assess Consequences and
Responses for Undesired Event. Assessment of Protection System
Effectiveness. Estimate Security Risk. Evaluation and Design of Resilient
Systems. Motivating Infrastructure Resilience Analysis. Current State of
Resilience Assessment. Infrastructure Resilience Analysis Methodology. Case
Studies Using the Infrastructure Resilience Analysis Framework. Future
Directions. Appendix A: Example Use of Fault Trees to Identify Critical
Assets. Appendix B: Physical Protection Features Performance Data. Index.