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Introduction to Radar Analysis [Kõva köide]

(Georgia Tech Research Institute)
  • Formaat: Hardback, 352 pages, kõrgus x laius: 234x156 mm, kaal: 608 g, 759 equations; 10 Tables, black and white
  • Sari: Advances in Applied Mathematics
  • Ilmumisaeg: 22-May-1998
  • Kirjastus: CRC Press Inc
  • ISBN-10: 0849318793
  • ISBN-13: 9780849318795
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Introduction to Radar AnalysisSuurem pilt
  • Formaat: Hardback, 352 pages, kõrgus x laius: 234x156 mm, kaal: 608 g, 759 equations; 10 Tables, black and white
  • Sari: Advances in Applied Mathematics
  • Ilmumisaeg: 22-May-1998
  • Kirjastus: CRC Press Inc
  • ISBN-10: 0849318793
  • ISBN-13: 9780849318795
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780849318795.html
Märksõnad:
Introduction to Radar Analysis outlines the fundamental principles and applications of radar as well as important mathematical derivations - serving as a reference for engineers, technical managers, and students.
This comprehensive book divides into two parts:
  • General analytical treatment of radar signal processing
  • Specific discussion of radar topics and radar types
    Chapters contain:
  • derivations of the radar equation in many forms for an essential understanding of radar principles
  • examination of radar cross section and receiver noise
  • practical aspects of radar systems, including stretch processing, multipath propagation, and track filters
  • analysis of probability of detection and radar losses; CW and pulsed radars; and pulse compression
  • investigation of current research and industry trends, including clutter and wave propagation, Moving Target Indicator (MTI), tracking radars, and array antennas
  • a unique approach in presenting Synthetic Aperture Radar (SAR)
  • 756 equations and formulas providing detailed mathematical derivations
  • 165 examples and exercise problems as well as 149 figures and plots
    Introduction to Radar Analysis acts as an essential stepping stone toward specialized topics - providing a clear, accessible framework of radar fundamentals as well as a thorough study of advanced topics and radar technology issues.
    • Preface
    Acknowledgment
    Chapter 1 INTRODUCTION TO SIGNAL PROCESSING
    		1(32)
    Signal and System Classifications
    		1(2)
    The Fourier Transform
    		3(1)
    The Fourier Series
    		4(2)
    Convolution and Correlation Integrals
    		6(1)
    Energy and Power Spectrum Densities
    		7(3)
    Low Pass, Band Pass Signals and Quadrature Components
    		10(1)
    Random Variables
    		11(4)
    Random Processes
    		15(1)
    Sampling Theorem
    		16(3)
    The Z-Transform
    		19(2)
    The Discrete Fourier Transform
    		21(1)
    Discrete Power Spectrum
    		22(1)
    Windowing Techniques
    		23(4)
    Problems
    		27(6)
    Chapter 2 RADAR FUNDAMENTALS
    		33(28)
    Radar Classifications
    		33(3)
    Range
    		36(2)
    Unambiguous Range
    		38(1)
    Range Resolution
    		39(3)
    Doppler Frequency
    		42(9)
    Coherence
    		51(1)
    CW and Pulsed Waveforms Spectra
    		52(7)
    Problems
    		59(2)
    Chapter 3 RADAR EQUATION, RADAR CROSS SECTION, AND RECEIVER NOISE
    		61(30)
    The Radar Equation
    		61(4)
    Low PRF Radar Equation
    		65(1)
    High PRF Radar Equation
    		66(1)
    Surveillance Radar Equation
    		67(4)
    Radar Equation with Jamming
    		71(3)
    Self-Screening Jammers (SSJ)
    		72(1)
    Stand-off Jammers (SOJ)
    		73(1)
    Bistatic Radar Equation
    		74(3)
    Radar Cross Section (RCS)
    		77(2)
    Target Scintillation
    		79(2)
    Noise Figure
    		81(6)
    Problems
    		87(4)
    Chapter 4 PROBABILITY OF DETECTION, AND RADAR LOSSES
    		91(26)
    Detection in the Presence of Noise
    		91(5)
    Probability of False Alarm
    		96(1)
    Probability of Detection
    		96(3)
    Antenna Scan Rate
    		99(1)
    Pulse Integration
    		99(3)
    Radar losses
    		102(6)
    Transmit and Receive Losses
    		102(1)
    Antenna Pattern Loss and Scan Loss
    		102(1)
    Atmospheric Loss
    		103(1)
    Collapsing Loss
    		104(1)
    Processing Losses
    		104(4)
    Other Losses
    		108(1)
    Cumulative Probability of Detection
    		108(3)
    Probability of Detection for Fluctuating Targets
    		111(1)
    Solving the Radar Equation
    		112(2)
    Problems
    		114(3)
    Chapter 5 CONTINUOUS WAVE AND PULSED RADARS
    		117(28)
    CW Radar
    		117(15)
    Functional Block Diagram
    		117(2)
    Frequency Modulation (FM) CW Radar
    		119(5)
    Linear FM (LFM) CW Radar
    		124(3)
    Multiple Frequency CW Radar
    		127(1)
    Effect of FM Transmitter Noise on the Receiver
    		128(4)
    Pulsed Radar
    		132(3)
    Range and Doppler Ambiguities
    		135(1)
    Resolving Range Ambiguity
    		136(3)
    Resolving Doppler Ambiguity
    		139(3)
    Problems
    		142(3)
    Chapter 6 THE MATCHED FILTER, THE AMBIGUITY FUNCTION, AND PULSE COMPRESSION
    		145(40)
    Introduction
    		145(1)
    Matched Filter SNR
    		146(3)
    Time-Bandwidth Product
    		149(2)
    The Replica
    		151(1)
    Matched Filter with Colored Noise
    		152(1)
    Matched Filter Response to LFM Waveforms
    		153(4)
    The Radar Ambiguity Function
    		157(1)
    Examples of the Ambiguity Function
    		158(6)
    Single Pulse Ambiguity Function
    		158(3)
    LFM Ambiguity Function
    		161(3)
    Ambiguity Diagram Contours
    		164(4)
    Pulse Compression
    		168(7)
    Correlation Processor
    		168(3)
    Stretch Processor
    		171(4)
    Digital Pulse Compression
    		175(6)
    Binary Phase Codes
    		175(4)
    Frank Codes
    		179(2)
    Problems
    		181(4)
    Chapter 7 CLUTTER, AND RADAR WAVE PROPAGATION
    		185(30)
    Clutter Definition
    		185(1)
    Surface Clutter
    		186(5)
    Signal to Clutter Ratio for Area Clutter
    		189(2)
    Volume Clutter
    		191(5)
    Signal to Clutter Ratio for Weather Clutter
    		194(2)
    Clutter Statistical Models
    		196(1)
    Clutter Spectrum
    		197(1)
    Propagation of Radar Waves
    		198(14)
    Multipath Propagation
    		198(7)
    Ground Reflection Coefficient
    		205(3)
    Refraction
    		208(2)
    Atmospheric Attenuation
    		210(2)
    Problems
    		212(3)
    Chapter 8 MOVING TARGET INDICATOR (MTI)
    		215(22)
    Introduction
    		215(2)
    Single Delay Line Canceler
    		217(2)
    Double Delay Line Canceler
    		219(1)
    Delay Lines with Feedback (Recursive Filters)
    		220(3)
    PRF Staggering
    		223(1)
    MTI Improvement Factor
    		224(5)
    Subclutter Visibility (SCV)
    		229(1)
    Delay Line Cancelers with Optimal Weights
    		230(3)
    Problems
    		233(4)
    Chapter 9 TARGET TRACKING RADAR SYSTEMS
    		237(30)
    Introduction
    		237(1)
    Angle Tracking
    		238(16)
    Sequential Lobing
    		238(2)
    Conical Scan
    		240(4)
    Amplitude Comparison Monopulse
    		244(7)
    Phase Comparison Monopulse
    		251(3)
    Range Tracking
    		254(1)
    Track-While-Scan (TWS)
    		255(2)
    Target Prediction and Smoothing
    		257(7)
    The AlphaBeta Filter
    		259(1)
    The AlphaBetaGamma Filter
    		260(1)
    The AlphaBetaGamma Transfer Function Formulas
    		261(3)
    Problems
    		264(3)
    Chapter 10 ARRAY ANTENNAS
    		267(20)
    Introduction
    		267(1)
    Circular Dish Antenna Pattern
    		268(2)
    Linear Array Antennas
    		270(5)
    Array Tapering
    		275(1)
    Computation of the Radiation Pattern via the DFT
    		276(3)
    Array Pattern for Rectangular Planar Array
    		279(2)
    Conventional Beamforming
    		281(3)
    Problems
    		284(3)
    Chapter 11 SYNTHETIC APERTURE RADAR
    		287(24)
    Introduction
    		287(1)
    Real Versus Synthetic Arrays
    		288(2)
    Side Looking SAR Geometry
    		290(3)
    SAR Design Considerations
    		293(6)
    SAR Radar Equation
    		299(2)
    SAR Signal Processing
    		301(1)
    Side Looking SAR Doppler Processing
    		301(5)
    SAR Imaging Using Doppler Processing
    		306(1)
    Range Walk
    		307(1)
    Problems
    		308(3)
    Appendix A FOURIER TRANSFORM TABLE 311(2)
    Appendix B SOME COMMON PROBABILITY DENSITIES 313(2)
    Chi-Square with N degrees of freedom 313(1)
    Exponential 313(1)
    Gaussian 313(1)
    Laplace 313(1)
    Log-Normal 314(1)
    Rayleigh 314(1)
    Uniform 314(1)
    Weibull 314(1)
    Appendix C Z-TRANSFORM TABLE 315(2)
    Bibliography 317(4)
    Index 321