Download Free Cbrne Challenges In The 21st Century Book in PDF and EPUB Free Download. You can read online Cbrne Challenges In The 21st Century and write the review.

This book addresses the pertinent issues that will need to be considered by those interested in physical security problems of the future. Specifically, it examines how changes in the accessibility of technology – data, hardware, software – are likely to affect both threat and mitigation considerations for Chemical, Biological, Radiological and Explosive (CBRE) scenarios and how social science can inform us of the human aspects of each. The trend towards an ever more socio-technical society and infrastructures – encapsulated by concepts such as 'smart cities' – is drawn out as a key motivation for adopting more holistic risk approaches to such security problems, than is currently the case.
This book describes the evolving CBRN risk landscape and highlights advances in the “core” CBRN technologies, including when combined with (improvised) explosive devices (CBRNe threats). It analyses how associated technologies create new safety and security risks, challenging certain assumptions that underlie current control regimes. The book also shows how technologies can be enablers for more effective strategies to mitigate these risks. 21st-century safety and security risks emanating from chemical, biological, radiological and nuclear materials – whether resulting from natural events, accidents or malevolent use - are increasingly shaped by technologies that enable their development, production or use in ways that differ from the past. Artificial intelligence, the use of cyberspace, the revolution in the life sciences, new manufacturing methods, new platforms and equipment for agent delivery, hypersonic weapons systems, information tools utilised in hybrid warfare – these and other technologies are reshaping the global security environment and CBRN landscape. They are leading to a growing potential for highly targeted violence, and they can lead to greater instability and vulnerability worldwide. At the same time, technology offers solutions to manage CBRN risks. Examples are faster detection, more accurate characterisation of the nature and origin of CBRN agents, new forensic investigation methods, or new medical treatments for victims of CBRN incidents. New educational concepts help to foster a culture of responsibility in science and technology and strengthen governance. New training methods help develop practical skills to manage CBRN risks more effectively. The book concludes that there is a growing need for a holistic framework towards CBRN risk mitigation. Traditional arms control mechanisms such as global, regional or bilateral treaties and export controls are still needed, as they provide a necessary legal and institutional framework. But laws and technology denial alone will not suffice, and institutional mechanisms can at times be weak. Given the pace of technological progress and the diffusion of critical knowledge, tools and materials, policymakers must accept that CBRN risks cannot be eliminated altogether. Instead, society has to learn to manage these risks and develop resilience against them. This requires a “softer”, broadly based multi-stakeholder approach involving governments, industry, the research and development communities, educators, and civil society. Furthermore, educating policymakers that cutting-edge technologies may seriously affect global strategic stability could create incentives for developing a more creative and contemporary arms control strategy that fosters cooperation rather than incremental polarisation.
Chemical, Biological, Radiological, Nuclear, and high-yield Explosive (CBRNE) events have the potential to destabilize governments, create conditions that exacerbate violence or promote terrorism. This can trigger global repercussions. These events can quickly overwhelm the infrastructure and capability of the responders, especially in countries that do not have the specialized resources for response like those available in the United States. When a CBRNE incident occurs in a partner nation or other foreign country, the U.S. is often called upon to provide assistance. Interoperability - the ability to work together - among U.S. agencies, foreign governments, and responders involved in the effort is key to an efficient response. The effectiveness of the U.S. response and approach to CBRNE events in partner nations depends on the capability of the U.S. government to provide timely and appropriate assistance and the resilience of the partner nation to a CBRNE event. An All-of-Government Approach to Increase Resilience for International Chemical, Biological, Radiological, Nuclear, and Explosive (CBRNE) Events is the summary of a workshop convened in June 2013 by the National Institute of Standards and Technology and the National Research Council to discuss ways to strengthen the U.S. ability to prepare for and respond to CBRNE events that occur in U.S. partner nations. The workshop brought together diverse experts and stakeholders to identify capabilities that are necessary for responding to an international CBRNE event; discuss best practices and resources needed for improved interoperability of the U.S. and partner nation during response to a CBRNE event; and identify key questions that need to be addressed in follow up activities focused on improving U.S. CBRNE response in partner nations.
The concept of Crime Prevention Through Environmental Design (CPTED) has undergone dramatic changes over the last several decades since C. Ray Jeffery coined the term in the early 1970s, and Tim Crowe wrote the first CPTED applications book. The second edition of 21st Century Security and CPTED includes the latest theory, knowledge, and practice of
Biological and chemical warfare agents, including viruses, bacteria, and explosive and radioactive compounds, can induce illness or death in humans, animals, and plants. Plasmonic nanosensors as detection tools of these agents offer significant advantages, including rapid detection, sensitivity, selectivity, and portability. This book explores novel and updated research on different types of plasmonic nanosensors for analysis of biological and chemical threat agents. It covers a brief theory of plasmonic nanosensors, summarizes the state-of-art in the molecular recognition of biological and chemical threat agents, and describes the application of various types of nanosensors in the detection of these threat agents. This book • Brings together recent academic research from an interdisciplinary approach including chemistry, biology, and nanotechnology. • Discusses current trends and developments. • Describes applications of a variety of different types of plasmonic nanosensors. • Explores outlooks and expectations for this technology. Showcasing the latest achievements in plasmonic nanosensors, this book will appeal to researchers in materials, chemical, and environmental engineering as well as chemistry interested in exploring the application of sensors to support environmental monitoring and global health.
A comprehensive textbook that overviews common technologies utilized within the homeland security enterprise with an emphasis on contemporary homeland security mission areas and end-user applications. Designed for students entering or currently working in the safety, security, and emergency management disciplines in the public or private sectors, this textbook presents a broad array of homeland security technology types from the viewpoint of end-user applications and homeland security mission areas. The authors investigate various theories behind the use of technologies and assess the importance of technologies for achieving goals and objectives. The content includes not only technical capabilities but also a blend of sample applications of technologies using an all-hazards framework and use cases at all levels of practice, including both the public and private sectors. The authors provide an overview of preparedness applications; preventive and protective systems; and mitigation, response, and recovery technologies. Topics such as ethical and privacy concerns associated with implementing technologies and use of the Internet and social media receive special attention. In addition to readers directly involved in the security disciplines, this book will be useful for students in technical fields of study such as geographic information systems (GIS), computer science, or engineering who are seeking information on standards, theories, and foundations underlining homeland security technologies.
Evolving threats of chemical, biological, radiological and nuclear (CBRN) attack make it imperative to find ways to support global efforts against the proliferation of weapons of mass destruction (WMD) and terrorism. This book contains papers presented at the NATO Advanced Study Institute (ASI) on CBRN security culture, held in Yerevan, Armenia, in June 2014. The conference was timely in bringing together the various aspects of security culture in the different substantive areas from a CBRN perspective, focusing efforts to advance CBRN security culture in the everyday work of those who must deal with these ever present threats. The primary aim of the conference was to promote the concept of a CBRN security culture which recognizes synergy across the individual disciplines. As a first step in the practical application of this synergistic view, the conference introduced assessment methodologies that could be refined and customized to enhance the role of the human factor in CBRN security. This, we hope, will enable countries to fulfill their international obligations and implement United Nations Security Council Resolution 1540. The book reflects the presentations and deliberations of workshop participants and will be of interest to governments, international organizations, researchers and practitioners whose work involves the human dimension of the security of CBRN materials.
The volume investigates to what extent the international and European Union legal frameworks applicable to Chemical, Biological and Radio-Nuclear (CBRN) events are adequate to face current challenges. It is innovative in many aspects: it adopts an all-hazard approach to CBRN risks, focusing on events of intentional, accidental and natural origin; it explores international obligations according to the four phases of the emergency cycle, including prevention, preparedness, response and recovery; and it covers horizontal issues such as protection of human rights, international environmental law, new technologies, the role of private actors, as well as enforcement mechanisms and remedies available to victims. The book thus offers a new way of looking at the applicable rules of international law in this field.