Sustainable and resilient critical infrastructure systems is an emerging paradigm in an evolving era of depleting assets in the midst of natural and man-made threats to provide a sustainable and high quality of life with optimized resources from social, economic, societal and environmental considerations. The increasing complexity and interconnectedness of civil and other interdependent infrastructure systems (electric power, energy, cyber-infrastructures, etc.) require inter- and multidisciplinary expertise required to engineer, monitor, and sustain these distributed large-scale complex adaptive infrastructure systems. This edited book is motivated by recent advances in simulation, modeling, sensing, communications/information, and intelligent and sustainable technologies that have resulted in the development of sophisticated methodologies and instruments to design, characterize, optimize, and evaluate critical infrastructure systems, their resilience, and their condition and the factors that cause their deterioration. Specific topics discussed in this book include, but are not limited to: optimal infrastructure investment allocation for sustainability, framework for manifestation of tacit critical infrastructure knowledge, interdependencies between energy and transportation systems for national long term planning, intelligent transportation infrastructure technologies, emergent research issues in infrastructure interdependence research, framework for assessing the resilience of infrastructure and economic systems, maintenance optimization for heterogeneous infrastructure systems, optimal emergency infrastructure inspection scheduling, and sustainable rehabilitation of deteriorated transportation infrastructure systems.

Sustainable and resilient critical infrastructure systems is an emerging paradigm in an evolving era of depleting assets in the midst of natural and man-made threats to provide a sustainable and high quality of life with optimized resources from social, economic, societal and environmental considerations. The increasing complexity and interconnectedness of civil and other interdependent infrastructure systems (electric power, energy, cyber-infrastructures, etc.) require inter- and multidisciplinary expertise required to engineer, monitor, and sustain these distributed large-scale complex adaptive infrastructure systems. This edited book is motivated by recent advances in simulation, modeling, sensing, communications/information, and intelligent and sustainable technologies that have resulted in the development of sophisticated methodologies and instruments to design, characterize, optimize, and evaluate critical infrastructure systems, their resilience, and their condition and the factors that cause their deterioration.

Specific topics discussed in this book include, but are not limited to: optimal infrastructure investment allocation for sustainability, framework for manifestation of tacit critical infrastructure knowledge, interdependencies between energy and transportation systems for national long term planning, intelligent transportation infrastructure technologies, emergent research issues in infrastructure interdependence research, framework for assessing the resilience of infrastructure and economic systems, maintenance optimization for heterogeneous infrastructure systems, optimal emergency infrastructure inspection scheduling, and sustainable rehabilitation of deteriorated transportation infrastructure systems.

Homeland security has occupied the news since 9/11. Still, much of the research about security risks, types of threats, and other vital data remains unsubstantiated. Using the tools that verify scientific finding, the editors have moved the issues of homeland security to a level above rhetoric and hearsay. Authors, in this volume, review the current literature, critique current information, and provide suggestions for future research in several areas. Topics in this volume include: Risk and Crisis Communication Strategies in Response to Bioterrorism; Security Issues in Water Infrastructure; Fundamental Causes of International Terrorism; Understanding, Measuring, Modeling, and Management of Risks to Homeland Security; Biosensors for Detection of Nerve Agents and Agricultural Pesticides; Detection of Bacterial Pathogens and Toxins; Anti-crop bioterrorism; and Medical Biosurveillance. This volume is a must for all who are involved with issues of homeland security from planners to administrators to researchers. The editors of this volume are members of the Purdue Homeland Security Institute, Purdue University, West Lafayette, Indiana except Daniel R. Dolk who is at the Naval Postgraduate School, Monterey, California.

Part of the challenge in homeland security research is developing plans for emerging areas of research. In order to provide a solid basis for future needs, authors will comment on current information in their fields and provide directions for future scientific research in their areas. This volume will cover the following topics: Coordinating Effective Government Responses to Bio-terrorism; Interagency Relations in Animal Biosecurity Disasters; Nuclear Power Plant Security; Modeling and Analysis of Public Policies for Managing the Risks to Homeland Security; Security Screening; and Use of Advanced 3D Visualization for Bio-terror Crises Communication Training. This volume is a must for all who are involved with issues of homeland security from planners to administrators to researchers. The editors of this volume are members of the Purdue Homeland Security Institute, Purdue University, West Lafayette, Indiana.