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"This comprehensive book presents LPI radar design essentials, including ambiguity analysis of LPI waveforms, FMCW radar, and phase-shift and frequency-shift keying techniques. Moreover, you find details on new OTHR modulation schemes, noise radar, and spatial multiple-input multiple-output (MIMO) systems. The book explores autonomous non-linear classification signal processing algorithms for identifying LPI modulations. It also demonstrates four intercept receiver signal processing techniques for LPI radar detection that helps you determine which time-frequency, bi-frequency technique best suits any LPI modulation of interest."--Publisher.
Low probability of intercept radar. --- Radar --- Signal detection --- Detection, Signal --- Detection theory, Signal --- Signal detection theory --- Statistical communication theory --- Receiver operating characteristic curves --- Military engineering --- LPI radar --- Military applications. --- Mathematics.
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In recent years, we have witnessed a revolutionary change in biomedical signal monitoring. The traditional way of using bulky instruments is being replaced by portable and even wearable acquisition systems with wireless data transmission that will enable many non-clinical applications that rely on biomedical signal monitoring. The main driver applications are early-warning systems, wellness, comfort and sports monitoring, brain-computer interfaces, gaming and entertainment. The common requirements from all these applications are miniature size, unobtrusiveness, high signal quality, and long-term power autonomy. This requires ultra-low-power and miniature SiP/SoC biomedical signal acquisition systems. Biopotential Readout Circuits for Portable Acquisition Systems describes one of the main building blocks of such miniaturized biomedical signal acquisition systems. The focus of this book is on the implementation of low-power and high-performance integrated circuit building blocks that can be used to extract biopotential signals from conventional biopotential electrodes. New instrumentation amplifier architectures are introduced and their design is described in detail. These amplifiers are used to implement complete acquisition demonstrator systems that are a stepping stone towards practical miniaturized and low-power systems.
Biomedical engineering. --- Medical electronics. --- Portable computerized instruments. --- Signal detection. --- Engineering --- Health Occupations --- Electronics --- Disciplines and Occupations --- Technology, Industry, and Agriculture --- Physics --- Technology, Industry, Agriculture --- Natural Science Disciplines --- Electronics, Medical --- Biomedical Engineering --- Health & Biological Sciences --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Electrical Engineering --- Instruments, Portable computerized --- Portable instruments, Computerized --- Detection, Signal --- Detection theory, Signal --- Signal detection theory --- Biomedical electronics --- Electronics in clinical medicine --- Electronics in medicine --- Clinical engineering --- Medical engineering --- Engineering. --- Electronic circuits. --- Circuits and Systems. --- Biomedical Engineering. --- Bioengineering --- Biophysics --- Medicine --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Construction --- Industrial arts --- Technology --- Computerized instruments --- Statistical communication theory --- Receiver operating characteristic curves --- Biomedical engineering --- Systems engineering. --- Biomedical Engineering and Bioengineering. --- Engineering systems --- System engineering --- Industrial engineering --- System analysis --- Design and construction
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