基本信息
源码名称:《雷达系统设计MATLAB仿真(英文版)》pdf以及随书MATLAB源代码
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开发语言:MATLAB
更新时间:2019-07-11
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源码介绍
《MATLAB - Simulations for Radar Systems Design》pdf
《MATLAB - Simulations for Radar Systems Design》pdf
目录如下:
PART I Chapter 1 Introduction to Radar Basics 1.1. Radar Classifications 1.2. Range 1.3. Range Resolution 1.4. Doppler Frequency 1.5. The Radar Equation 1.5.1. Radar Reference Range 1.6. Search (Surveillance) 1.6.1. Mini Design Case Study 1.1 1.7. Pulse Integration 1.7.1. Coherent Integration 1.7.2. Non-Coherent Integration 1.7.3. Detection Range with Pulse Integration 1.7.4. Mini Design Case Study 1.2 1.8. Radar Losses 1.8.1. Transmit and Receive Losses 1.8.2. Antenna Pattern Loss and Scan Loss 1.8.3. Atmospheric Loss 1.8.4. Collapsing Loss 1.8.5. Processing Losses 1.8.6. Other Losses 1.9. ìMyRadarî Design Case Study - Visit 1 © 2004 by Chapman & Hall/CRC CRC Press LLC 1.9.1 Authors and Publisher Disclaimer 1.9.2. Problem Statement 1.9.3. A Design 1.9.4. A Design Alternative 1.10. MATLAB Program and Function Listings Listing 1.1. Function ìradar_eq.mî Listing 1.2. Program ìfig1_12.mî Listing 1.3. Program ìfig1_13.mî Listing 1.4. Program ìref_snr.mî Listing 1.5. Function ìpower_aperture.mî Listing 1.6. Program ìfig1_16.mî Listing 1.7. Program ìcasestudy1_1.mî Listing 1.8. Program ìfig1_19.mî Listing 1.9. Program ìfig1_21.mî Listing 1.10. Function ìpulse_integration.mî Listing 1.11. Program ìmyradarvisit1_1.mî Listing 1.12. Program ìfig1_27.mî Appendix 1A Pulsed Radar 1A.1. Introduction 1A.2. Range and Doppler Ambiguities 1A.3. Resolving Range Ambiguity 1A.4. Resolving Doppler Ambiguity Appendix 1B Noise Figure Chapter 2 Radar Detection 2.1. Detection in the Presence of Noise 2.2. Probability of False Alarm 2.3. Probability of Detection 2.4. Pulse Integration 2.4.1. Coherent Integration 2.4.2. Non-Coherent Integration 2.4.3. Mini Design Case Study 2.1 2.5. Detection of Fluctuating Targets 2.5.1. Threshold Selection © 2004 by Chapman & Hall/CRC CRC Press LLC 2.6. Probability of Detection Calculation 2.6.1. Detection of Swerling V Targets 2.6.2. Detection of Swerling I Targets 2.6.3. Detection of Swerling II Targets 2.6.4. Detection of Swerling III Targets 2.6.5. Detection of Swerling IV Targets 2.7. The Radar Equation Revisited 2.8. Cumulative Probability of Detection 2.8.1. Mini Design Case Study 2.2 2.9. Constant False Alarm Rate (CFAR) 2.9.1. Cell-Averaging CFAR (Single Pulse) 2.9.2. Cell-Averaging CFAR with Non-Coherent Integration 2.10. ìMyRadarî Design Case Study - Visit 2 2.10.1. Problem Statement 2.10.2. A Design 2.10.2.1. Single Pulse (per Frame) Design Option 2.10.2.2. Non-Coherent Integration Design Option 2.11. MATLAB Program and Function Listings Listing 2.1. Program ìfig2_2.mî Listing 2.2. Function ìque_func.mî Listing 2.3. Program ìfig2_3.mî Listing 2.4. Function ìmarcumsq.mî Listing 2.5. Program ìprob_snr1.mî Listing 2.6. Program ìfig2_6a.mî Listing 2.7. Function ìimprov_fac.mî Listing 2.8 Program ìfig2_6b.mî Listing 2.9. Function ìincomplete_gamma.mî Listing 2.10. Function ìfactor.mî Listing 2.11. Program ìfig2_7.mî Listing 2.12. Function ìthreshold.mî Listing 2.13. Program ìfig2_8.mî Listing 2.14. Function ìpd_swerling5.mî Listing 2.15. Program ìfig2_9.mî Listing 2.16. Function ìpd_swerling1.mî Listing 2.17. Program ìfig2_10.mî Listing 2.18. Program ìfig2_11ab.mî Listing 2.19. Function ìpd_swerling2.mî Listing 2.20. Program ìfig2_12.mî Listing 2.21. Function ìpd_swerling3.mî Listing 2.22. Program ìfig2_13.mî Listing 2.23 Function ìpd_swerling4.mî Listing 2.24. Program ìfig2_14.mî © 2004 by Chapman & Hall/CRC CRC Press LLC Listing 2.25. Function ìfluct_loss.mî Listing 2.26. Program ìfig2_16.mî Listing 2.27. Program ìmyradar_visit2_1.mî Listing 2.28. Program ìmyradar_visit2_2.mî Listing 2.29. Program ìfig2_21.mî Chapter 3 Radar Waveforms 3.1. Low Pass, Band Pass Signals and Quadrature Components 3.2. The Analytic Signal 3.3. CW and Pulsed Waveforms 3.4. Linear Frequency Modulation Waveforms 3.5. High Range Resolution 3.6. Stepped Frequency Waveforms 3.6.1. Range Resolution 4.2.3. Coherent Pulse Train Ambiguity Function 4.3. Ambiguity Diagram Contours 4.4. Digital Coded Waveforms 4.4.1. Frequency Coding (Costas Codes) 4.4.2. Binary Phase Codes 4.4.3. Pseudo-Random (PRN) Codes 4.5. ìMyRadarî Design Case Study - Visit 4 4.5.1. Problem Statement 4.5.2. A Design 4.6. MATLAB Program and Function Listings Listing 4.1. Function ìsingle_pulse_ambg.mî Listing 4.2. Program ìfig4_2.mî Listing 4.3. Program ìfig4_4.mî Listing 4.4. Function ìlfm_ambg.mî Listing 4.5. Program ìfig4_5.mî Listing 4.6. Program ìfig4_6.mî Listing 4.7. Function ìtrain_ambg.mî Listing 4.8. Program ìfig4_8.mî Listing 4.9. Function ìbarker_ambg.mî Listing 4.10. Function ìprn_ambg.mî Listing 4.11. Program ìmyradar_visit4.mî Chapter 5 Pulse Compression 5.1. Time-Bandwidth Product 5.2. Radar Equation with Pulse Compression 5.3. LFM Pulse Compression 5.3.1. Correlation Processor 5.3.2. Stretch Processor 5.3.3. Distortion Due to Target Velocity 5.4. ìMyRadarî Design Case Study - Visit 5 5.4.1. Problem Statement 5.4.2. A Design 5.5. MATLAB Program and Function Listings Listing 5.1. Program ìfig5_3.mî Listing 5.2. Function ìmatched_filter.mî Listing 5.3. Function ìpower_integer_2.mî Listing 5.4. Function ìstretch.mî Listing 5.5. Program ìfig5_14.mî © 2004 by Chapman & Hall/CRC CRC Press LLC Chapter 6 Surface and Volume Clutter 6.1. Clutter Definition 6.2. Surface Clutter 6.2.1. Radar Equation for Area Clutter - Airborne Radar 6.6.2. Radar Equation for Area Clutter - Ground Based Radar 6.3. Volume Clutter 6.3.1. Radar Equation for Volume Clutter 6.4. Clutter Statistical Models 6.5. ìMyRadarî Design Case Study - Visit 6 6.5.1. Problem Statement 6.5.2. A Design 6.6. MATLAB Program and Function Listings Listing 6.1. Function ìclutter_rcs.mî Listing 6.2. Program ìmyradar_visit6.mî Chapter 7 Moving Target Indicator (MTI) and Clutter Mitigation 7.1. Clutter Spectrum 7.2. Moving Target Indicator (MTI) 7.3. Single Delay Line Canceler 7.4. Double Delay Line Canceler 7.5. Delay Lines with Feedback (Recursive Filters) 7.6. PRF Staggering 7.7. MTI Improvement Factor 7.7.1. Two-Pulse MTI Case 7.7.2. The General Case 7.8. ìMyRadarî Design Case Study - Visit 7 7.8.1. Problem Statement 7.8.2. A Design 7.9. MATLAB Program and Function Listings Listing 7.1. Function ìsingle_canceler.mî Listing 7.2. Function ìdouble_canceler.mî Listing 7.3. Program ìfig7_9.mî Listing 7.4. Program ìfig7_10.mî Listing 7.5. Program ìfig7_11.mî Listing 7.4. Program ìmyradar_visit7.mî © 2004 by Chapman & Hall/CRC CRC Press LLC Chapter 8 Phased Arrays 8.1. Directivity, Power Gain, and Effective Aperture 8.2. Near and Far Fields 8.3. General Arrays 8.4. Linear Arrays 8.4.1. Array Tapering 8.4.2. Computation of the Radiation Pattern via the DFT 8.5. Planar Arrays 8.6. Array Scan Loss 8.7. ìMyRadarî Design Case Study - Visit 8 8.7.1. Problem Statement 8.7.2. A Design 8.8. MATLAB Program and Function Listings Listing 8.1. Program ìfig8_5.mî Listing 8.2. Program ìfig8_7.mî Listing 8.3. Function ìlinear_array.mî Listing 8.4. Program ìcircular_array.mî Listing 8.5. Function ìrect_array.mî Listing 8.6. Function ìcirc_array.mî Listing 8.7. Function ìrec_to_circ.mî Listing 8.8. Program ìfig8_53.mî Chapter 9 Target Tracking Single Target Tracking 9.1. Angle Tracking 9.1.1. Sequential Lobing 9.1.2. Conical Scan 9.2. Amplitude Comparison Monopulse 9.3. Phase Comparison Monopulse 9.4. Range Tracking Multiple Target Tracking 9.5. Track-While-Scan (TWS) 9.6. State Variable Representation of an LTI System 9.7. The LTI System of Interest 9.8. Fixed-Gain Tracking Filters 9.8.1. The Filter 9.8.2. The Filter αβ αβγ © 2004 by Chapman & Hall/CRC CRC Press LLC 9.9. The Kalman Filter 9.9.1. The Singer -Kalman Filter 9.9.2. Relationship between Kalman and Filters 9.10. ìMyRadarî Design Case Study - Visit 9 9.10.1. Problem Statement 9.10.2. A Design 9.11. MATLAB Program and Function Listings Listing 9.1. Function ìmono_pulse.mî Listing 9.2. Function ìghk_tracker.mî Listing 9.3. Program ìfig9_21.mî Listing 9.4. Function ìkalman_filter.mî Listing 9.5. Program ìfig9_28.mî Listing 9.6. Function ìmaketraj.mî Listing 9.7. Function ìaddnoise.mî Listing 9.8. Function ìkalfilt.mî PART II Chapter 10 Electronic Countermeasures (ECM) 10.1. Introduction 10.2. Jammers 10.2.1. Self-Screening Jammers (SSJ) 10.2.2. Stand-Off Jammers (SOJ) 10.3. Range Reduction Factor 10.4. Chaff 10.4.1. Multiple MTI Chaff Mitigation Technique 10.5. MATLAB Program and Function Listings Listing 10.1. Function ìssj_req.mî Listing 10.2. Function ìsir.mî Listing 10.3. Function ìburn_thru.mî Listing 10.4. Function ìsoj_req.mî Listing 10.5. Function ìrange_red_factor.mî Listing 10.6. Program ìfig8_10.mî Chapter 11 Radar Cross Section (RCS) 11.1. RCS Definition 11.2. RCS Prediction Methods 11.3. Dependency on Aspect Angle and Frequency αβγ αβγ © 2004 by Chapman & Hall/CRC CRC Press LLC 11.4. RCS Dependency on Polarization 11.4.1. Polarization 11.4.2. Target Scattering Matrix 11.5 RCS of Simple Objects 11.5.1. Sphere 11.5.2. Ellipsoid 11.5.3. Circular Flat Plate 11.5.4. Truncated Cone (Frustum) 11.5.5. Cylinder 11.5.6. Rectangular Flat Plate 11.5.7. Triangular Flat Plate 11.6. Scattering From a Dielectric-Capped Wedge 11.6.1. Far Scattered Field 11.6.2. Plane Wave Excitation 11.6.3. Special Cases 11.7. RCS of Complex Objects 11.8. RCS Fluctuations and Statistical Models 11.8.1. RCS Statistical Models - Scintillation Models 11.9. MATLAB Program and Function Listings Listing 11.1. Function ìrcs_aspect.mî Listing 11.2. Function ìrcs_frequency.mî Listing 11.3. Program ìexample11_1.mî Listing 11.4. Program ìrcs_sphere.mî Listing 11.5. Function ìrcs_ellipsoid.mî Listing 11.6. Program ìfig11_18a.mî Listing 11.7. Function ìrcs_circ_plate.mî Listing 11.8. Function ìrcs_frustum.mî Listing 11.9. Function ìrcs_cylinder.mî Listing 11.10. Function ìrcs_rect_plate.mî Listing 11.11. Function ìrcs_isosceles.mî Listing 11.12. Program ìCapped_WedgeTM.mî Listing 11.13. Function ìDielCappedWedgeTM Fields_LS.mî Listing 11.14. Function ìDielCappedWedgeTMFields_PW.mî Listing 11.15. Function ìpolardb.mî Listing 11.16. Function ìdbesselj.mî Listing 11.17. Function ìdbessely.mî Listing 11.18. Function ìdbesselh.mî Listing 11.19. Program ìrcs_cylinder_complex.mî Listing 11.20. Program ìSwerling_models.mî © 2004 by Chapman & Hall/CRC CRC Press LLC Chapter 12 High Resolution Tactical Synthetic Aperture Radar (TSAR) 12.1. Introduction 12.2. Side Looking SAR Geometry 12.3. SAR Design Considerations 12.4. SAR Radar Equation 12.5. SAR Signal Processing 12.6. Side Looking SAR Doppler Processing 12.7. SAR Imaging Using Doppler Processing 12.8. Range Walk 12.9. A Three-Dimensional SAR Imaging Technique 12.9.1. Background 12.9.2. DFTSQM Operation and Signal Processing 12.9.3.Geometry for DFTSQM SAR Imaging 12.9.4. Slant Range Equation 12.9.5. Signal Synthesis 12.9.6. Electronic Processing 12.9.7. Derivation of Eq. (12.71) 12.9.8. Non-Zero Taylor Series Coefficients for the kth Range Cell 12.10. MATLAB Programs and Functions Listing 12.1. Program ìfig12_12-13.mî Chapter 13 Signal Processing 13.1. Signal and System Classifications 13.2. The Fourier Transform 13.3. The Fourier Series 13.4. Convolution and Correlation Integrals 13.5. Energy and Power Spectrum Densities 13.6. Random Variables 13.7. Multivariate Gaussian Distribution 13.8. Random Processes 13.9. Sampling Theorem 13.10. The Z-Transform 13.11. The Discrete Fourier Transform 13.12. Discrete Power Spectrum 13.13. Windowing Techniques 13.14. MATLAB Programs Listing 13.1. Program ìfigs13.mî © 2004 by Chapman & Hall/CRC CRC Press LLC Appendix 13A Fourier Transform Table Appendix 13B Some Common Probability Densities Appendix 13C Z - Transform Table Chapter 14 MATLAB Program and Function Name List Bibliography