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도서명	Advanced Techniques for Digital Receivers
저자/역자	Phillip E. Pace
출판사	Artech House
분야	통신
목차/설명	Featuring an equal balance of theory and practical application, this new book is the first to examine the use of electro-optic architectures and high-resolution encoding techniques that directly digitize wideband signals in a digital receiver. It explains new symmetrical number system (SNS) signal processing techniques you can easily apply to designs using symmetrical folding waveforms, providing you a high-performance framework for getting optimum results from such systems. You are presented with a comprehensive review of digital radio frequency memories, including amplitude and phase-sampling designs, allowing you to apply these techniques to a new inverse synthetic aperture radar counter-targeting processor. What뭩 more, you get a detailed description of various sampling methods -- including undersampling, coherent sampling, oversampling, and non-uniform sampling -- that can be used to quantify difficult receiver performance problems -- such as jitter, ambiguity resolution, inband quantization noise, and skirting. With this handy source, you can solve problems related to... > High-resolution digital antennas using mode-locked lasers and electro-optics > Wideband undersampling receiver design using currently configured hardware > High resolution phase sampled interferometer antenna systems for wideband direction finding > High-resolution over-sampling of VHF signals Emphasizing GPS, satellite, electronic warfare, radar, and ultra-wideband radar receivers, this book is essential for digital receiver, signal converter, and digital antenna design engineers and others interested in the application of electro-optics and superconductivity to the signal conversion problem. Plus, you get up-to-date information on field programmable gate array techniques (FPGA), analog-to-digital conversion (ADC), and sigma-delta modulators and superconductor ADCs. Software Included! Provides software and computer simulations of architectures discussed in the book. System Requirements: Pentium PC running Windows 95 or better. 256K RAM, 50MB hard disk space, MatLab 5.3 and Simulink 3.0. Contents: Fundamentals of Signals and Systems. Receiver Design and Technology. Circuit Components for Signal Conversion. Dynamic Performance Parameters. High Performance Converter Architectures. Oversampling Sigma-Delta Converters. Digital Radio Frequency Memories. High-Resolution Encoding Techniques. Undersampling DFT Receivers. Phase Sampled DF Antennas. Phillip E. Pace is a professor at the Naval Postgraduate School in Monterey, California, and was previously a design specialist with General Dynamics Corporation. He received his Ph.D. in Electrical and Computer Engineering from the University of Cincinnati, and his M.S.E.E. from Ohio University. He is a senior member of the IEEE Circuits and Systems Society, a member of SPIE, and chairman of the U.S. Navy뭩 Threat Simulator Validation Working Group.
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