Design of multi-frequency CW radars /

The book is organized into three parts. This first part covers the basic CW radar theory. The second part introduces the reader into how this theory is utilized in the design of an actual radar called Calypso. The third and final part discusses the theory and design of a more complex multifrequency...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Jankiraman, Mohinder
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Raleigh, NC : SciTech Pub., [2007]
Colección:Radar, Sonar & Navigation.
Temas:
Radar.
Continuous wave radar.
Radar
Radar à ondes entretenues.
radar.
TECHNOLOGY & ENGINEERING > Mechanical.
Continuous wave radar
CW radar.
ground penetrating radar.
landmine detection.
radar detection.
radar resolution.
radar theory.
complex multifrequency CW radars theory
Calypso
PANDORA radar
extremely high resolutions
ground penetrating radar
GPR
landmine detection
pulsed radars
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface; Acknowledgments; List of Acronyms; Description of Software in CD; Part I: Fundamentals of CW Radar; Chapter 1: Frequency Modulated Continuous (FMCW) Wave Radar; 1.1 FMCW Radar Characteristics; 1.2 Range Equation for FMCW Radar; 1.3 Intercept Range of FMCW Radar; 1.4 Commercial FMCW Radars; 1.4.1 The PILOT Radar; 1.5 Experimental Air Search CW Radar; 1.5.1 Miscellaneous Uses of LPI Radars; 1.6 A Survey Of This Book; Chapter 2: Radar Waveforms and Processing; 2.1 Radar Signals; 2.2 CW Waveform; 2.3 Range Resolution; 2.3.1 Amplitude Modulation.
  • 2.3.2 Frequency and Phase Modulation; 2.3.2.1 Frequency Modulated Continuous Wave; 2.3.3 Stepped Frequency Waveform; 2.3.4 Phase-Coded Signal Compression; 2.3.5 Stretch; 2.3.6 Interrupted FMCW; 2.3.7 Side Lobes and Weighting for Linear FM Systems; 2.3.8 Linear Frequency Modulation Waveforms; 2.4 Matched Filter; Chapter 3: The Radar Ambiguity Function; 3.1 INTRODUCTION; 3.2 EXAMPLES OF AMBIGUITY FUNCTIONS; 3.2.1 Single-Frequency Pulse; 3.2.2 Linear FM Pulse; 3.2.3 Stepped Frequency Waveform; Chapter 4: FMCW Waveform; 4.1 INTRODUCTION; 4.2 WAVEFORM COMPRESSION; 4.2.1 Time-Bandwidth Product.
  • 4.2.2 LFM Waveform Compression; 4.3 FMCW SYSTEM; 4.4 ADVANTAGES OF AN FMCW SYSTEM; 4.5 BASIC EQUATIONS OF FMCW RADARS; 4.5.1 The FMCW Equation; 4.6 TRIANGULAR WAVEFORM; 4.7 EFFECT OF SWEEP TIME ON RANCE RESOLUTION; 4.8 EFFECT OF RECEIVER FREQUENCY RESOLUTION AND TARGET SPECTRAL WIDTH ON RANGE RESOLUTION; 4.9 CONCEPT OF INSTRUMENTED RANGE; 4.10 NON-LINEARITY IN FM WAVEFORMS; 4.10.1 Coherent Processing Interval; 4.11 IT ALL COMES TOGETHER. APPLICATION: BRIMSTONE ANTITANK MISSILE; 4.11.1 System Specifications; 4.11.2 Seeker Specifications (Known; 4.11.3 Operational Procedure.
  • 4.11.4 System Performance (Speculated); 4.12 SUMMARY; Chapter 5: Phase-Coded Waveform; 5.1 INTRODUCTION; 5.2 PHASE-CODED RADAR SIGNALS; 5.2.1 Barker Coding; 5.2.2 Frank Codes; 5.3 PERIODIC AMBIGUITY FUNCTION; 5.4 PERIODIC AUTOCORRELATION FUNCTION; 5.5 CUTS OF PAF ALONG DELAY AND DOPPLER AXES; 5.6 PAF AND PACF OF FRANK CODES; 5.7 MATCHED FILTER FOR PHASE-CODED SIGNALS; 5.8 POLYPHASE CODES; 5.8.1 P1 Codes; 5.8.2 P2 Codes; 5.8.3 P3 Codes; 5.8.4 P4 Codes; 5.9 PERFORMANCE ANALYSIS OF PHASE-CODED SIGNALS; Chapter 6: Frequency Hopped Waveform; 6.1 INTRODUCTION.
  • 6.2 FREQUENCY HOPPED SIGNALS AS LPI SIGNALS; 6.3 STEPPED FREQUENCY WAVEFORM; 6.3.1 Range Resolution and Range Ambiguity; 6.3.2 Effect of Target Velocity; 6.4 RANDOM FREQUENCY HOPPED WAVEFORMS; 6.5 TECHNOLOGY FOR SFCW; 6.6 HYBRID FSK/LFM TECHNIQUE; Part II: Theory and Design of Calypso FMCW Radar; Chapter 7 Calypso FMCW Radar*; 7.1 Introduction; 7.2 Calypso Design Parameters; 7.3 Doppler Tolerance; 7.4 Beam Patterns/Coverage Diagram; 7.5 FMCW Description; 7.6 Receiver Noise Figure; 7.7 AM Noise Cancellation; 7.8 FM Noise Cancellation; 7.9 IF Amplifier; 7.10 ANTI-ALIAS FILTER AND ADC.

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