LEADER 10746nam 22005653 450 001 9911007167803321 005 20240117215754.0 010 $a9781523162468 010 $a1523162465 010 $a9781630819071 010 $a1630819077 035 $a(CKB)29403697600041 035 $a(MiAaPQ)EBC31063377 035 $a(Au-PeEL)EBL31063377 035 $a(OCoLC)1417759155 035 $a(EXLCZ)9929403697600041 100 $a20240114h20242024 uy 0 101 0 $aeng 135 $aur||||||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aRadar and EW Modeling in MATLAB and Simulink /$fCarlos A. Dávila, Glenn D. Hopkins, Gregory A. Showman 205 $a1st ed. 210 1$aNorwood :$cArtech House,$d[2024] 210 4$d©2024. 215 $a1 online resource (xviii, 477 pages) $cillustrations, charts 225 1 $aArtech House radar library 311 08$a9781630819064 311 08$a1630819069 327 $aRadar and EW Modeling in MATLAB® and Simulink® -- Contents -- Foreword -- Preface -- Chapter 1 Introduction -- 1.1?Basic Concepts and Terminology -- 1.2?The M& -- S Pyramid -- 1.3?Radar M& -- S -- 1.4?Concluding Remarks -- References -- Chapter 2 The Radar Equation -- 2.1?Introduction -- 2.2?Derivation of the Radar Equation -- 2.2.1?Received Target Power -- 2.2.2?Noise Power Definition -- 2.2.3?The SNR Equation -- 2.2.4?Search and Track Forms of the Radar Equation -- 2.3?MATLAB Model -- 2.4?Simulink Model of the Radar Equation -- 2.5?Concluding Remarks -- References -- Chapter 3 Antennas -- 3.1?Introduction -- 3.2?Antenna Basics -- 3.3?Directivity Pattern Basics -- 3.4?Fields and Frequencies -- 3.5?Polarization -- 3.6?Isotropic Antenna Pattern -- 3.7?Directivity and Gain -- 3.8?Modeling Approaches -- 3.8.1?First-Order Antenna Models: Closed-Form Equations and Measured Data -- 3.8.2?Third-Order Antenna Models: Full-Wave Solutions to Clerk Maxwell's Equations -- 3.8.3?Second-Order Antenna Models: Fourier Transform Models -- 3.9?Fourier Transform Model Approaches -- 3.10?Fourier Transform Peak-Directivity Normalization -- 3.11?Fourier Transform Model for Antennas That Are Not Arrays -- 3.12?Fourier Transform Modeling of Arrays -- 3.12.1?The Array Element Pattern and Its Effect -- 3.12.2?Amplitude Tapering for Sidelobe Reduction -- 3.12.3?Calculation of the ? Aperture Efficiency -- 3.12.4?Phase- or Time-Delay Scanned Arrays -- 3.13?Multibeam Arrays -- 3.14?Fourier Transform Models for 2D Planar Phased Arrays -- 3.15?Modeling of Errors in Phased Arrays -- 3.15.1?Quantization of the Phase Shifter and Attenuator -- 3.15.2?Random Amplitude and Phase Errors -- 3.15.3?Amplifier Failure Errors in Active Arrays -- 3.16?Antenna Modeling Conclusions -- References -- Chapter 4 Propagation -- 4.1?Introduction -- 4.2?Radar Horizon. 327 $a4.3?Atmospheric Attenuation -- 4.4?Refraction -- 4.5?Multipath -- 4.6?Summary -- References -- Chapter 5 Radar Cross-Section -- 5.1?Introduction -- 5.2?The Concept of RCS -- 5.3?Scattering Surfaces -- 5.4?Scatterer Integration -- 5.5?CEM -- 5.6?Swerling Models -- 5.7?RCS Table Lookup -- 5.8?Concluding Remarks -- References -- Chapter 6 Clutter -- 6.1?Introduction -- 6.2?From Target Models to Clutter Models -- 6.3?Principles of Area Clutter Modeling -- 6.4?Land Clutter Backscatter Coefficients -- 6.4?Land Clutter Backscatter Statistics -- 6.5?Land Clutter Discretes -- 6.6?Land-Clutter Temporal Correlation -- 6.7?Site-Specific Clutter -- 6.8?Sea Clutter -- 6.9?Volume Clutter -- 6.10?Clutter Model Results -- 6.11?Summary -- References -- Chapter 7 Waveforms -- 7.1?Introduction -- 7.2?Taxonomy of Radar Waveforms -- 7.3?CW -- 7.3.1?Simulink Example -- 7.3.2?Range Estimation -- 7.4?Pulse Waveforms -- 7.4.1?Range Ambiguities -- 7.4.2?Doppler Ambiguities -- 7.4.3?Pulse Modulations -- 7.4.4?Simulink Example -- 7.5?Waveform Generator Model -- 7.6?Concluding Remarks -- References -- Chapter 8 Range and Doppler Processing -- 8.1?Introduction -- 8.2?Target Velocity and Doppler -- 8.3?The Fourier Transform (FT) -- 8.4?The Discrete Fourier Transform (DFT) -- 8.5?Pulse-Compression Waveforms -- 8.5.1?PM Waveforms -- 8.5.2?Linear Frequency Modulation (LFM) Waveforms -- 8.6?Range Processing -- 8.7?Doppler Processing -- 8.8?Concluding Remarks -- References -- Chapter 9 Monopulse Processing -- 9.1?Introduction -- 9.2?Monopulse Processing of a Two-Element Array -- 9.3?Extension to an N-Element Array -- 9.4?A Nonmathematical Description of Monopulse -- 9.5?Simulink Model of Monopulse Processor -- 9.6?Concluding Remarks -- References -- Chapter 10 Transmitter and Receiver Components -- 10.1?Introduction -- 10.2?SSB Upconverter -- 10.3?Amplifiers. 327 $a10.4?Oscillator Phase Noise -- 10.5?I/Q Channel Mismatch -- 10.6?Filtering -- 10.7?ADC -- 10.8?Concluding Remarks -- References -- Chapter 11 Target Detection -- 11.1?Introduction -- 11.2?Data Processing and Detector Types -- 11.3?Noise and Target Statistics -- 11.3.1?Noise Distributions -- 11.3.2?Target Distributions -- 11.4?Detection Figures of Merit (Pd and Pfa) and the Likelihood Ratio -- 11.5?Receiver-Operating Characteristic (ROC) Curves -- 11.6?Noncoherent Integration -- 11.7?Detection Performance for Fluctuating Targets -- 11.8?Constant False-Alarm Rate (CFAR) Detectors -- 11.9?Binary (M-of-N) Detection -- References -- Chapter 12 Pulse-Doppler & -- FMCW Signal Processors -- 12.1?Introduction -- 12.2?FMCW Processing -- 12.2.1?LFM Waveform Model -- 12.2.2?LFM Waveform Processing -- 12.2.3?Simulink Models of the LFMCW System -- 12.2.4?Processed Overlap of FMCW Systems -- 12.3?Pulse-Doppler Processing -- 12.3.1?Simulink Model of Pulse-Doppler System -- 12.4?Radar-Processing Timeline and Swerling Fluctuation Models -- 12.5?Concluding Remarks -- References -- Chapter 13 Target Tracking -- 13.1?Introduction and Basic Terminology -- 13.2?Radar Tracking Modes -- 13.3?Tracking Initiation and Management Process -- 13.4?Tracking M& -- S Considerations -- 13.5?Modeling Examples -- 13.5.1?Data Association Model (Nearest Neighbor) -- 13.5.2 STT Model (Kalman Filter) -- 13.6?Concluding Remarks -- References -- Chapter 14 Engagement Geometry -- 14.1?Introduction -- 14.2?CSs and their Transformations -- 14.2.1?Coordinate Transformations -- 14.2.2?Additional Conventions and Assumptions -- 14.2.3?Simulink Model -- 14.3?Truth Calculation of Radar Observables -- 14.3.1?(Slant) Range -- 14.3.2?Doppler Frequency -- 14.3.3?Target Angles -- 14.4?Simulink Model of Target Generator -- 14.5?Concluding Remarks -- References -- Chapter 15 Engagement Simulation. 327 $a15.1?Introduction -- 15.2?Extending the Radar Equation Model -- 15.3?Initial Engagement Model -- 15.4?Full Engagement Model -- 15.5?Example Single Radar Versus Single Target Engagement -- 15.6?Concluding Remarks -- References -- Chapter 16 M& -- S of EA -- 16.1?Introduction -- 16.2?EA Concepts -- 16.3?Coherent Repeater EA -- 16.3.1?Example Coherent EA Techniques -- 16.3.2?Example Coherent EA Models -- 16.4?Engagement Simulation with Coherent Repeater EA -- 16.5?Noise EA -- 16.5.1?Example Noise EA Techniques -- 16.6?Engagement Simulation with Noise EA -- 16.7?Concluding Remarks -- References -- Chapter 17 M& -- S of Electromagnetic Protection -- 17.1?Introduction -- 17.2?Antenna EP Concepts -- 17.3?Modeling of Antenna EP -- 17.3.1?SLB Modeling -- 17.3.2?SLC Modeling -- 17.4?Adaptive Beamforming -- 17.5?Concluding Remarks -- References -- Chapter 18 M& -- S of ES -- 18.1?Introduction -- 18.2?Instantaneous Frequency Measurement (IFM) Modeling -- 18.3?Generic ES Processor Modeling -- 18.3.1?Signal Detection -- 18.3.2?Pulse width and PRI Estimation -- 18.3.3?Simulink Model -- 18.4?Time Difference of Arrival (TDOA) Modeling -- 18.4.1?Estimation of Emitter Location -- 18.4.2?TDOA Measurement Approaches -- 18.5?Concluding Remarks -- References -- Appendix A Common Sources of Discrepancy and Confusion in Radar M& -- S -- A.1?Signal Amplitude (Voltage) and Power -- A.2?Peak and RMS Voltages -- A.3?Noise Power Spectral Density (PSD) and Noise Bandwidth -- A.5?Optimum Bandwidth for Rectangular Pulse -- A.4?Oversampling and Signal Processing Gains -- A.4.1?Oversampling May Inflate Signal Processing Gain -- A.4.2?Oversampling Correlates Receiver Noise So That It No Longer Behaves as White Noise -- A.5?Noise Factor -- A.6?Assorted Factors of Two -- References -- List of Acronyms -- About the Authors -- Index. 330 $aThis resource covers basic concepts and modeling examples for the three ???pillars??? of EW: Electronic Attack (EA) systems, Electronic Protection (EP) techniques, and Electronic Support (ES). It develops techniques for the modeling and simulation (M&S) of modern radar and electronic warfare (EW) systems and reviews radar principles, including the radar equation. M&S techniques are introduced, and example models developed in MATLAB and Simulink are presented and discussed in detail. These individual models are combined to create a full end-to-end engineering engagement simulation between a pulse-Doppler radar and a target. The radar-target engagement model is extended to include jamming models and is used to illustrate the interaction between radar and jamming signals and the impact on radar detection and tracking. In addition, several classic EA techniques are introduced and modeled, and the effects on radar performance are explored. This book is a valuable resource for engineers, scientists, and managers who are involved in the design, development, or testing of radar and EW systems. It provides a comprehensive overview of the M&S techniques that are used in these systems, and the book's many examples and case studies provide a solid foundation for understanding how these techniques can be applied in practice. 410 0$aArtech House radar library 606 $aElectronics in military engineering 606 $aRadar$xSimulation methods 615 0$aElectronics in military engineering. 615 0$aRadar$xSimulation methods. 700 $aDávila$b Carlos A.$01824432 702 $aHopkins$b Glenn D. 702 $aShowman$b Gregory A. 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9911007167803321 996 $aRadar and EW Modeling in MATLAB and Simulink$94391555 997 $aUNINA