This volume presents selected contributions from the “Advanced Research Workshop on Explosives Detection” hosted by the Department of Information Engineering of the University of Florence, Italy in 2018. The main goal of the workshop was to find out how Science for Peace and Security projects in the field of Explosives Detection contribute to the development and/or refinement of scientific and technical knowledge and competencies. The findings of the workshop, presented in the last section of the book, determine future actions and direction of the SPS Programme in the field of explosives detection and management.The NATO Science for Peace and Security (SPS) Programme, promotes dialogue and practical cooperation between NATO member states and partner nations based on scientific research, technological innovation and knowledge exchange. Several initiatives were launched in the field of explosive detection and clearance, as part of NATO’s enhanced role in the international fight against terrorism. Experts and scientists from NATO members and partner countries have been brought together in multi-year projects, within the framework of the SPS Programme, to cooperate in the scientific research in explosive detection field, developing new technologies and methods to be implemented in order to detect explosive substances in different contexts.
Presents latest scientific research and developments in the explosive detection field Includes important exponents from the scientific community involved in the workshop Includes recommendations and future outlook in the explosive detection field
Lorenzo Capineri
Explosive Detection Electronic Systems Image and Signal Processing Optical Engineering Application-Based Systems
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“Explosives Detection delivers an encyclopedic treatment of remote sensing for dangerous devices and substances. The editors present an original and methodical approach to finding mines and explosives with subsurface radar, photoacoustic spectroscopy, biologic methods, magnetic resonance, chemical detectors, optical sensors, terahertz imaging, and materials penetrating radar. Applying systems of complementary suboptimal sensors, then combining multiple inputs, can provide a more efficient approach than attempting to build one super system. Chapters examine different sensing method to provide an integrated approach for specialists and generalists. Lorenzo Capineri and Eyup Turmus have made a significant contribution to remote sensing for researchers and practical engineers.” (James D. Taylor, Editor Advanced Ultrawideband Radar: Signals, Targets and Applications CRC Press, 2017)
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