Cyber-Physical Threat Intelligence for Critical Infrastructures Security : : Securing Critical Infrastructures in Air Transport, Water, Gas, Healthcare, Finance and Industry / / John Soldatos, Isabel Praça, Aleksandar Jovanović.
Modern critical infrastructures can be considered as large scale Cyber Physical Systems (CPS). Therefore, when designing, implementing, and operating systems for Critical Infrastructure Protection (CIP), the boundaries between physical security and cybersecurity are blurred. Emerging systems for Cri...
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| Place / Publishing House: | Norwell, Massachusetts : : Now Publishers,, 2021. |
| Year of Publication: | 2021 |
| Language: | English |
| Physical Description: | 1 online resource (626 pages) |
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Table of Contents:
- Part I "Securing Critical Infrastructures of Sensitive Industrial Plants and Sites": *Chapter 1 "InfraStress approach on risk modelling of cascading events with live data for decision support". *Chapter 2 "Cyber-physical adversarial attacks and countermeasures for deep learning vision systems on critical infrastructures".*Chapter 3 "Modelling of interdependencies among and InfraStress approach on risk modelling of cascading events with live data for decision support". *Chapter 4 "Data Visualisation for Situational Awareness in Industrial Critical Infrastructure: an InfraStress Case Study".*Chapter 5 "Critical Infrastructures, SIPS and Threat Intelligence: legal and ethical aspects of security research".Part II "Securing Critical Infrastructures in the Water Sector": *Chapter 6 "Cyber security importance in the water sector and the contribution of the STOP-IT project".*Chapter 7 "Cyber-Physical security for critical water infrastructures at strategic and tactical level". *Chapter 8 "Cyber-physical solutions for real-time detection at operational level". *Chapter 9 "Applying Machine Learning and Deep Learning algorithms for Anomaly Detection in Critical Water Infrastructures".Part III "Securing Critical Infrastructures for Air Transport": *Chapter 10 "Security Challenges for Critical Infrastructures in Air Transport".*Chapter 11 "Toolkit to enhance cyber-physical security of Critical Infrastructures in Air Transport".*Chapter 12 "Security ontologies as technological enabler for blended threat detection and enhanced systems interoperability".Part IV "Securing Critical Infrastructures for Gas": *Chapter 13 "Conceptual Model and CONOPS for Secure and Resilient Gas CI".*Chapter 14 "High-Level Reference Architecture (HLRA) for Gas Infrastructures Protection". *Chapter 15 "The SecureGas Key Performance Indicators for resilient gas critical infrastructures". *Chapter 16 "Communication of Security-related Incident Information to the Authorities and the Population".Part V "Securing Critical Infrastructures of the Healthcare Sector": *Chapter 17 "Security monitoring for medical devices".*Chapter 18 "User Experience models for threat monitoring and security management in healthcare". *Chapter 19 "Attacking and defending healthcare building automation networks".*Chapter 20 "An Intuitive Distributed Cyber Situational Awareness Framework Within a Healthcare Environment".Part VI "Securing Critical Infrastructures in the Finance Sector": *Chapter 21 "The FINSEC Platform: End-to-End Data-Driven Cyber-Physical Threat Intelligence for Critical Infrastructures in Finance". *Chapter 22 "Anomaly detection for critical financial infrastructure protection".Part VII "Critical Infrastructure Protection and Smart Resilience": *Chapter 23 "Indicator-based assessment of resilience of critical infrastructures: From single indicators to comprehensive "smart" assessment".