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In security science, efficient operation depends typically on the interaction between technology, human and machine detection and human and machine decision making. A perfect example of this interplay is ‘gatekeeping’, which is aimed to prevent the passage of people and objects that represent known threats from one end to the other end of an access point. Gatekeeping is most often achieved via visual inspections, mass screening, random sample probing and/or more targeted controls on attempted passages at points of entry. Points of entry may be physical (e.g. national borders) or virtual (e.g. connection log-ons). Who and what are defined as security threats and the resources available to gatekeepers determine the type of checks and technologies that are put in place to ensure appropriate access control. More often than not, the net performance of technology-aided screening and authentication systems ultimately depends on the characteristics of human operators. Assessing cognitive, affective, behavioural, perceptual and brain processes that may affect gatekeepers while undertaking this task is fundamental. On the other hand, assessing the same processes in those individuals who try to breach access to secure systems (e.g. hackers), and try to cheat controls (e.g. smugglers) is equally fundamental and challenging. From a security standpoint it is vital to be able to anticipate, focus on and correctly interpret the signals connected with such attempts to breach access and/or elude controls, in order to be proactive and to enact appropriate responses. Knowing cognitive, behavioral, social and neural constraints that may affect the security enterprise will undoubtedly result in a more effective deployment of existing human and technological resources. Studying how inter-observer variability, human factors and biology may affect the security agenda, and the usability of existing security technologies, is of great economic and policy interest. In addition, brain sciences may suggest the possibility of novel methods of surveillance and intelligence gathering. This is just one example of a typical security issue that may be fruitfully tackled from a neuroscientific and interdisciplinary perspective. The objective of our Research Topic was to document across relevant disciplines some of the most recent developments, ideas, methods and empirical findings that have the potential to expand our knowledge of the human factors involved in the security process. To this end we welcomed empirical contributions using different methodologies such as those applied in human cognitive neuroscience, biometrics and ethology. We also accepted original theoretical contributions, in the form of review articles, perspectives or opinion papers on this topic. The submissions brought together researchers from different backgrounds to discuss topics which have scientific, applicative and social relevance.
The objective of this Research Topic is to document across disciplines (e.g. neuroscience, psychology, engineering, computer science) the most recent developments, ideas, methods and empirical findings that have the potential to expand our knowledge in the human factors involved in the security process. Knowing cognitive, behavioral, social and neural constraints that may affect the security enterprise will undoubtedly result in a more effective deployment of existing human and technological resources. Studying how inter-observer variability, human factors and biology may affect the security agenda, and the usability of existing security technologies, is of great economic and policy interest. In addition, brain sciences may suggest the possibility of novel methods of surveillance and intelligence gathering.
New advances in neuroscience promise innovations in national security, especially in the areas of law enforcement, intelligence collection, and armed conflict. But ethical questions emerge about how we can, and should, use these innovations. This book draws on the open literature to map the development of neuroscience, particularly through funding by the Defense Advanced Research Projects Agency, in certain areas like behavior prediction, behavior modification, and neuroenhancement, and its use in the creation of novel weapons. It shows how advances in neuroscience and new technologies raise ethical issues that challenge the norms of law enforcement, intelligence collection, and armed conflict, broadly grouped under the term "national security." Increasing technological sophistication without attention to ethics, this book argues, risks creating conditions for the development of "dual-use" technologies that may be prone to misuse, are grounded in an incomplete understanding of the brain, or are based on a limited view of the political contexts in which these technologies arise. A concluding section looks at policy and regulatory options that might promote the benefits of emerging neuroscience, while mitigating attendant risks. Key Features: First broad survey of the ethics of neuroscience as it applies to national security Innovative ethical analysis over a range of cross-cutting technologies including behavior prediction and modification tools, human enhancement, and novel lethal and nonlethal weapons Ethical analysis covering all stages from the development, testing, and use (or misuse) of these technologies; and decisions from the individual scientist to the nation state Strong policy focus at multiple levels, from self-governance to international regulation Combination of philosophical analysis with grounded, practical recommendations
Emerging Cognitive Neuroscience and Related Technologies, from the National Research Council, identifies and explores several specific research areas that have implications for U.S. national security, and should therefore be monitored consistently by the intelligence community. These areas include: neurophysiological advances in detecting and measuring indicators of psychological states and intentions of individuals the development of drugs or technologies that can alter human physical or cognitive abilities advances in real-time brain imaging breakthroughs in high-performance computing and neuronal modeling that could allow researchers to develop systems which mimic functions of the human brain, particularly the ability to organize disparate forms of data. As these fields continue to grow, it will be imperative that the intelligence community be able to identify scientific advances relevant to national security when they occur. To do so will require adequate funding, intelligence analysts with advanced training in science and technology, and increased collaboration with the scientific community, particularly academia. A key tool for the intelligence community, this book will also be a useful resource for the health industry, the military, and others with a vested interest in technologies such as brain imaging and cognitive or physical enhancers.
Updated fully, this accessible and comprehensive text highlights the most important theoretical, conceptual and methodological issues in cognitive neuroscience. Written by two experienced teachers, the consistent narrative ensures that students link concepts across chapters, and the careful selection of topics enables them to grasp the big picture without getting distracted by details. Clinical applications such as developmental disorders, brain injuries and dementias are highlighted. In addition, analogies and examples within the text, opening case studies, and 'In Focus' boxes engage students and demonstrate the relevance of the material to real-world concerns. Students are encouraged to develop the critical thinking skills that will enable them to evaluate future developments in this fast-moving field. A new chapter on neuroscience and society considers how cognitive neuroscience issues relate to the law, education, and ethics, highlighting the clinical and real-world relevance. An expanded online package includes a test bank.
This book presents the proceedings of the Gmunden Retreat on NeuroIS 2017, reporting on topics at the intersection of Information Systems (IS) research, neurophysiology and the brain sciences. Readers will discover the latest findings from top scholars in the field of NeuroIS, which offer detailed insights on the neurobiology underlying IS behavior, essential methods and tools and their applications for IS, as well as the application of neuroscience and neurophysiological theories to advance IS theory.
The Routledge Handbook of Neuroethics offers the reader an informed view of how the brain sciences are being used to approach, understand, and reinvigorate traditional philosophical questions, as well as how those questions, with the grounding influence of neuroscience, are being revisited beyond clinical and research domains. It also examines how contemporary neuroscience research might ultimately impact our understanding of relationships, flourishing, and human nature. Written by 61 key scholars and fresh voices, the Handbook’s easy-to-follow chapters appear here for the first time in print and represent the wide range of viewpoints in neuroethics. The volume spotlights new technologies and historical articulations of key problems, issues, and concepts and includes cross-referencing between chapters to highlight the complex interactions of concepts and ideas within neuroethics. These features enhance the Handbook’s utility by providing readers with a contextual map for different approaches to issues and a guide to further avenues of interest. Chapter 11 of this book is freely available as a downloadable Open Access PDF under a Creative Commons Attribution-Non Commercial-No Derivatives 3.0 license. https://www.routledgehandbooks.com/doi/10.4324/9781315708652.ch11