About the Book
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”.
About the Author :
Aleksandar Jovanovic is the director of the Steinbeis Advanced Risk Technologies Group in Stuttgart, Germany providing consultancy in the areas of risk assessment and risk management for industry and public sector and CEO of the European Virtual Institute for Integrated Risk Management (EU-VRi). He is a full professor at Steinbeis University Berlin and his previous academic and research assignments include Politecnico di Milano (Italy), University of Stuttgart (Germany), Ecole Polytechnique (France), University of Tokyo (Japan), UC La Jolla (USA), BeijingCapital University (China), the European Commission (Belgium, Italy), Argonne Ntl. Lab. (USA), and industry in USA and Serbia. In his professional experience he has acted as project manager of over 150 large international / multinational projects in the area innovation management, new technologies, risk management, advanced data analysis and data mining, and related areas (the project for the EU, national governments, industry, utilities, insurances companies, R&D, and academia). Main topics covered by the current projects deal with risk andresilience management in industry (e.g., for insurance, power, process) and include HSSE (Health, Safety, Security, Environment), RCM (Reliability-Centered Maintenance), RBI (Risk-Based Inspection), KPIs (Key Performance Indicators), RCFA (Root Cause Failure analysis), resilience indicators and application of AI (artificial intelligence), in projects managed by him (e.g., iNTeg-Risk www.integrisk.euvri.eu, 19.3 Me, 80+ partners, EskomRBI (RBI for power plants in South Africa, Me or SmartResilience - Resilience Indicators for critical infrastructures in Europe, www.smartresilience.eu-vri.eu, 5 Me). John Soldatos (http: //gr.linkedin.com/in/johnsoldatos) holds a PhD in Electrical & Computer Engineering from the National Technical University of Athens (2000) and is currently Honorary Research Fellow at the University of Glasgow, UK (2014-present). He was Associate Professor and Head of the Internet of Things Group at the Athens Information Technology (AIT), Greece (2006-2019), and Adjunct Professor at the Carnegie Mellon University, Pittsburgh, PA (2007-2010).He has significant experience in working closely with large multinational industries (IBM Hellas, INTRACOM S.A, INTRASOFT International) as R&D consultant and delivery specialist, while being scientific advisor to high-tech startup enterprises, such as Innov-Acts Limited (Nicosia, Cyprus) and Innovation Sprint Sprl (Brussels, Belgium). Dr. Soldatos is an expert in Internet-of-Things (IoT) technologies and applications, including IoT's applications in smart cities, finance (Finance 4.0), and industry (Industry 4.0). Dr. Soldatos has played a leading role in the successful delivery of more than sixty (commercial-industrial, research, and consulting) projects, for both private and public sector organizations, including complex integrated projects. He is cofounder of the open source platformOpenIoT (https: //github.com/OpenIotOrg/openiot) and of the Edge4Industry (www.edge4industry.eu) community. He has published more than 180 articles in international journals, books, and conference proceedings. He has also significant academic teaching experience, along with experience in executive education and corporate training. Dr. Soldatos is a regular contributor in various international magazines and blogs, on topics related to IoT, Industry 4.0, and cybersecurity.Moreover, he has received national and international recognition through appointments in standardization working groups, expert groups, and various boards. He has coedited and coauthored three edited volumes (books) on Internet of Things topics, including IoT for Industrial Automation, IoT Analytics, and IoT Security. Isabel Praça is Advisor of ISEP Presidency for R&D, Professor at ISEP and Senior Researcher at GECAD. Isabel has a PhD in Electrical and Computer Engineering, and a Pos-Doc, awarded by the Portuguese National Science Foundation with a scholarship (SFRH/BPD/30111/2006). Isabel is a member of ENISA expert group on AI, and ISEP point of contact at ECSO. She has participated in over 25 national and international R&D projects, with relevant responsibilities. She has published over 150 papers, more than 50 in international journals and books. She has beenworking in the application of AI techniques to real problems since 2001. She participates in the technical and scientific committees of several conferences and is an active member of IEEE. She works in the area of Artificial Intelligence (AI) with special interest in machine learning, multi-agent systems, optimization, knowledge based systems, collaborative decision support, context aware methodologies, and modeling and simulation. Main areas of application are cyber-security; industry 4.0; multi-agent systems and forecasting in power systems. Isabel is part of the editorial board of MDPI journals. Relevant responsibilities in related international projects: scientific coordinator, work package and task leader, as well as ISEP coordinator, for "SeCoIIA - Secure Collaborative Intelligent Industrial Assets", H2020 nr 871967), where she's also Impact Coordinator; for "SAFECARE - SAFEguardof Critical health infrastructure (Integrated cyber-physical security for health services)" H2020 project Grant No. 787002; Technical coordinator, country coordinator and work package leader of international CyberFactory#1 - Addressing Opportunities and Challenges of FoF, ITEA project No. 17032; ISEP coordinator for SATIE - Security of Air Transport Infrastructures of Europe project (H2020-SU-INFRA-2018-2019-2020 No. 832969).
