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    • 雷达信号分析手册(英文版)/国防电子信息技术丛书
      • 作者:编者:(美)巴塞姆·R.马哈夫扎//斯科特·C.温顿//阿提夫·Z.埃尔舍贝利|责编:马岚
      • 出版社:电子工业
      • ISBN:9787121472930
      • 出版日期:2024/01/01
      • 页数:652
    • 售价:79.6
  • 内容大纲

        这本专业著作由3位主编与6位合著者共同完成撰写。全书首先给入行新手回顾了信号与系统雷达系统和雷达方程的基础知识,然后分章讨论雷达传播介质、雷达电子战、匹配滤波器接收机、雷达模糊函数、目标检测、雷达杂波信号处理、雷达跟踪技术、雷达截面积计算的经典方法和时域有限差分法,雷达截面积计算的积分法和物理光学方法,天线技术的雷达应用,合成孔径雷达,宽带雷达应用,现代数字阵列天线的雷达应用。
        本书可作为高等院校电子工程专业高年级本科生和硕士研究生的参考教材,也可作为在雷达系统领域工作的雷达工程师和技术人员的参考书。
  • 作者介绍

  • 目录

    Chapter 1  Signals and Systems-Refresher
      1.1  Signal Classification
      1.2  Signal Expansion Functions
        1.2.1  Fourier Series Expansion
        1.2.2  Properties of the Fourier Series
      1.3  Fourier Transform
        1.3.1  Fourier Transform Pairs and Properties Tables
      1.4  Systems Classification
        1.4.1  Linear and Nonlinear Systems
        1.4.2  Time Invariant and Time Varying Systems
        1.4.3  Stable and Nonstable Systems
        1.4.4  Causal and Noncausal Systems
      1.5  Spectra of Common Radar Signals
        1.5.1  Continuous Wave Signal
        1.5.2  Finite Duration Pulse Signal
        1.5.3  Periodic Pulse Signal
        1.5.4  Finite Duration Pulse Train Signal
      1.6  Convolution Integral
      1.7  Correlation
        1.7.1  Correlation Coefficient
        1.7.2  Correlation Integral-Energy Signals
        1.7.3  Relationship between Convolution and Correlation Integrals
        1.7.4  Effect of Time Translation on the Correlation Function
        1.7.5  Correlation Function Properties
        1.7.6  Correlation Integral-Power Signals
        1.7.7  Energy and Power Spectrum Densities
        1.7.8  Correlation Function for Periodic Signals
      1.8  Bandpass Signals
        1.8.1  Analytic Signal (Pre-Envelope)
        1.8.2  Pre-Envelope and Complex Envelope of Bandpass Signals
        1.8.3  Spectrum for a Linear Frequency Modulation Signal
      1.9  Discrete Time Systems and Signals
        1.9.1  Sampling Theorem
      1.10  Z-Transform
      1.11  Discrete Fourier Transform
        1.11.1  Discrete Power Spectrum
        1.11.2  Spectral Leakage and Fold-Over
        1.11.3  Windowing Techniques
        1.11.4  Decimation and Interpolation
      1.12  Random Variables and Random Processes
        1.12.1  Random Variables
        1.12.2  Multivariate Gaussian Random Vector
        1.12.3  Complex Multivariate Gaussian Random Vector
        1.12.4  Rayleigh Random Variables
        1.12.5  The Chi-Square Random Variables
        1.12.6  Random Processes
        1.12.7  Gaussian Random Process
        1.12.8  Lowpass Gaussian Random Processes
        1.12.9  Bandpass Gaussian Random Processes
        1.12.10  Envelope of a Bandpass Gaussian Process

    Chapter 2  Radar Systems Basics
      2.1  Radar Block Diagram
      2.2  Radar Specific Terms
        2.2.1  Range
        2.2.2  Unambiguous Range
        2.2.3  Range Resolution
        2.2.4  Doppler Frequency
      2.3  Radar Systems Classifications and Bands
        2.3.1  High Frequency and Very HF Radars (A-and B-Bands)
        2.3.2  Ultra High Frequency Radars (C-Band)
        2.3.3  L-Band Radars (D-Band)
        2.3.4  S-Band Radars (E- and F-Bands)
        2.3.5  C-Band Radar (G-Band)
        2.3.6  X-and Ku-Band Radars (I- and J-Bands)
        2.3.7  K-and Ka-Band Radars (J-and K-Bands)
        2.3.8  Millimeter Wave Radars (V- and W-Bands)
      2.4  Decibel Arithmetic
      2.5  Electromagnetic Waves (RF Waves)
        2.5.1  Polarization
      2.6  Coherence
      2.7  Radar Antenna
        2.7.1  Antenna Directivity and Gain
        2.7.2  Antenna Power Radiation Pattern
        2.7.3  Near and Far Fields
        2.7.4  Beam Shape Loss and Scan Loss
      ……
    Chapter 3  Radar Equation
    Chapter 4  Radar Propagation Medium
    Chapter 5  Radar Electronic Warfare Techniques
    Chapter 6  Matched Filter Receiver
    Chapter 8  Target Detection
    Chapter 9  Radar Signal Processing in Clutter
    Chapter 10  Radar Tracking
    Chapter 11  Canonical and Finite Difference Time Domain Methods for RCS Computations
    Chapter 12  Integral and Physical Optics Methods for RCS Computation
    Chapter 13  Antennas for Radar Applications
    Chapter 14  Synthetic Aperture Radar
    Chapter 15  Wideband Radar Applications
    Chapter 16  Modern Digital Array Antennas for Radar Applications
    Index