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The information infrastructure--comprising computers, embedded devices, networks and software systems--is vital to operations in every sector. Global business and industry, governments, and society itself, cannot function effectively if major components of the critical information infrastructure are degraded, disabled or destroyed. This book contains a selection of 27 edited papers from the First Annual IFIP WG 11.10 International Conference on Critical Infrastructure Protection.
Critical Infrastructure Protection and Risk Management covers the history of risk assessment, crtical infrastructure protection, and the various structures that make up the homeland security enterprise. The authors examine risk assessment in the public and private sectors, the evolution of laws and regulations, and the policy challenges facing the 16 critical infrastructure sectors. The book will take a comprehensive look at the issues surrounding risk assessment and the challenges facing decision makers who must make risk assessment choices.
The present volume aims to provide an overview of the current understanding of the so-called Critical Infrastructure (CI), and particularly the Critical Information Infrastructure (CII), which not only forms one of the constituent sectors of the overall CI, but also is unique in providing an element of interconnection between sectors as well as often also intra-sectoral control mechanisms. The 14 papers of this book present a collection of pieces of scientific work in the areas of critical infrastructure protection. In combining elementary concepts and models with policy-related issues on one hand and placing an emphasis on the timely area of control systems, the book aims to highlight some of the key issues facing the research community.
A scientific approach to the new field of critical infrastructure protection This book offers a unique scientific approach to the new field of critical infrastructure protection: it uses network theory, optimization theory, and simulation software to analyze and understand how infrastructure sectors evolve, where they are vulnerable, and how they can best be protected. The author demonstrates that infrastructure sectors as diverse as water, power, energy, telecommunications, and the Internet have remarkably similar structures. This observation leads to a rigorous approach to vulnerability analysis in all of these sectors. The analyst can then decide the best way to allocate limited funds to minimize risk, regardless of industry sector. The key question addressed in this timely book is: What should be protected and how? The author proposes that the answer lies in allocating a nation's scarce resources to the most critical components of each infra-structure--the so-called critical nodes. Using network theory as a foundation, readers learn how to identifya small handful of critical nodes and then allocate resources to reduce or eliminate risk across the entire sector. A comprehensive set of electronic media is provided on a CD-ROM in the back of the book that supports in-class and self-tutored instruction. Students can copy these professionally produced audio-video lectures onto a PC (Microsoft Windows(r) and Apple Macintosh(r) compatible) for repeated viewing at their own pace. Another unique feature of the book is the open-source software for demonstrating concepts and streamlining the math needed for vulnerability analysis. Updates, as well as a discussion forum, are available from www.CHDS.us. This book is essential for all corporate, government agency, and military professionals tasked with assessingvulnerability and developing and implementing protection systems. In addition, the book is recommended for upper-level undergraduate and graduate students studying national security, computing, and other disciplines where infrastructure security is an issue.
The information infrastructure – comprising computers, embedded devices, networks and software systems – is vital to operations in every sector: inf- mation technology, telecommunications, energy, banking and ?nance, tra- portation systems, chemicals, agriculture and food, defense industrial base, public health and health care, national monuments and icons, drinking water and water treatment systems, commercial facilities, dams, emergency services, commercial nuclear reactors, materials and waste, postal and shipping, and government facilities. Global business and industry, governments, indeed - ciety itself, cannot function if major components of the critical information infrastructure are degraded, disabled or destroyed. This book, Critical Infrastructure Protection III, is the third volume in the annualseriesproducedbyIFIP WorkingGroup11.10onCriticalInfrastructure Protection, an active international community of scientists, engineers, prac- tioners and policy makers dedicated to advancing research, development and implementation e?orts related to critical infrastructure protection. The book presents original research results and innovative applications in the area of infrastructure protection. Also, it highlights the importance of weaving s- ence, technology and policy in crafting sophisticated, yet practical, solutions that will help secure information, computer and network assets in the various critical infrastructure sectors. This volume contains seventeen edited papers from the Third Annual IFIP Working Group 11.10 International Conference on Critical Infrastructure P- tection, held at Dartmouth College, Hanover, New Hampshire, March 23–25, 2009. The papers were refereed by members of IFIP Working Group 11.10 and other internationally-recognized experts in critical infrastructure protection.
Since the initial inception of this book, there have been significant strides to safeguard the operations of our worlds infrastructures. In recent years, there has also been a shift to more fluid postures associated with resilience and the establishment of redundant infrastructure. In keeping with the fast-changing nature of this field, Critical I
Hybrid conflicts are characterized by multi-layered efforts to undermine the functioning of the State or polarize society. This book presents results, recommendations and best practices from the NATO Advanced Research Workshop (ARW) "Critical Infrastructure Protection Against Hybrid Warfare Security Related Challenges", held in Stockholm, Sweden, in May 2016. The main objective of this workshop was to help and support NATO in the field of hybrid conflicts by developing a set of tools to deter and defend against adversaries mounting a hybrid offensive. Addressing the current state of critical infrastructure protection (CIP) and the challenges evolving in the region due to non-traditional threats which often transcend national borders – such as cyber attacks, terrorism, and attacks on energy supply – the widely ranging group of international experts who convened for this workshop provided solutions from a number of perspectives to counter the new and emerging challenges affecting the security of modern infrastructure. Opportunities for public-private partnerships in NATO member and partner countries were also identified. The book provides a highly topical resource which identifies common solutions for combating major hazards and challenges – namely cyber attacks, terrorist attacks on energy supply, man-made disasters, information warfare and maritime security risks – and will be of interest to all those striving to maintain stability and avoid adverse effects on the safety and well-being of society.
This book analyzes the security of critical infrastructures such as road, rail, water, health, and electricity networks that are vital for a nation’s society and economy, and assesses the resilience of these networks to intentional attacks. The book combines the analytical capabilities of experts in operations research and management, economics, risk analysis, and defense management, and presents graph theoretical analysis, advanced statistics, and applied modeling methods. In many chapters, the authors provide reproducible code that is available from the publisher’s website. Lastly, the book identifies and discusses implications for risk assessment, policy, and insurability. The insights it offers are globally applicable, and not limited to particular locations, countries or contexts. Researchers, intelligence analysts, homeland security staff, and professionals who operate critical infrastructures will greatly benefit from the methods, models and findings presented. While each of the twelve chapters is self-contained, taken together they provide a sound basis for informed decision-making and more effective operations, policy, and defense.
"Cyberspace, or the Internet, supports important commercial assets as well as non-commercial assets. A hacker, a state or nonstate agent, or a cybercriminal can attack cyberspace for financial, political, or espionage reasons, or to steal identities, or to cause the disruption of critical infrastructure. We have achieved great advancement in computing systems in both hardware and software and their security. On the other hand, we still see massive cyberattacks that result in enormous data losses. Recent attacks have included sophisticated cyberattacks targeting many institutions, including those who provide management and host the core parts of Internet infrastructure. The number and types of attacks, the duration of the attacks, and their complexity are all on the rise. The Cyber Infrastructure Protection (CIP) colloquium for the academic year 2015-16 was focused on strategy and policy directions relating to cyberspace; and how those directions should deal with the fast-paced, technological evolution of that domain. Topics addressed by the colloquia included: a cooperative international deterrence capability as an essential tool in cybersecurity; an estimation of the costs of cybercrime; the impact of prosecuting spammers on fraud and malware contained in email spam; cybersecurity and privacy in smart cities; smart cities demand smart security; and, a smart grid vulnerability assessment using national testbed networks. Our offerings here are the result of the 2015-16 CIP, conducted on October 15, 2015, by the Center of Information Networking and Telecommunications (CINT) at the Grove School of Engineering, the City University of New York (CUNY) City College, and the Strategic Studies Institute (SSI) at the U.S. Army War College (USAWC). The colloquium brought together government, business, and academic leaders to assess the vulnerability of our cyber infrastructure and provide strategic policy directions for the protection of such infrastructure"--Foreword.
The recent European Council Directive 114/08 requested the EU Member States to perform an assessment aimed at the identification and designation of the so-called European Critical Infrastructures (ECI). Every analysis of the results of the "first round" of identifications and designations has only taken into account the numbers of ECIs effectively designated, consequently leaving aside all of the other elements related to this important path towards a harmonized vision of the "European Security". This work, with its unprecedented approach, focuses on the elements that have maximized or frustrated the ambitious European objectives and on the issues that might have prevented the directive reaching its full potential. Furthermore, the study offers an in-depth perspective on the lessons learned - including those that can be learned from the US pre-post 9/11 CIP policies - as well as an assessment of the state of play of the Member States after the implementation of the directive, together with predictions for future challenges.