Essential principles of signals collection and analysis /
Garren, David A.,
Essential principles of signals collection and analysis / David A. Garren, Uttam K. Majumder, Erik P. Blasch. - 1 online resource (xii, 205 pages) : illustrations.
Includes bibliographical references and index.
Intro -- Essential Principles of Signals Collection and Analysis -- Contents -- Foreword -- 1 Introduction to Signals Collection and Analysis -- 1.1 Key Foundations -- 1.2 Presentation Organization -- 2 RF Signals Classification -- 2.1 Introduction -- 2.2 Communication Channels -- 2.3 RF Signals Analysis -- 2.4 RF Analog Signals Modulation -- 2.5 RF Digital Signals Modulation -- 2.6 RF Shift Keying -- 2.7 RF Wi-Fi -- 2.8 RF Signal Detection -- 2.9 Conclusions -- References -- 4 Radar Fundamentals -- 4.1 Introduction -- 4.2 Electromagnetic Theory -- 4.2.1 Maxwell's Equations 4.2.2 EM Wave Propagation -- 4.2.3 EM Wave Polarization -- 4.3 Antennas -- 4.3.1 Pure Magnetic Dipole Antenna Concept -- 4.3.2 Transmission and Reception Beam Patterns -- 4.4 Radar Equation -- 4.4.1 Signal Power Over One-Way Link -- 4.4.2 Target Radar Cross Section -- 4.4.3 EM Power Density for Monostatic Receiver -- 4.5 Summary -- References -- 5 Geolocation -- 5.1 Introduction -- 5.1.1 Emitter and Collector Assumptions -- 5.1.2 Possible Vignettes -- 5.2 Angle of Arrival Methods -- 5.2.1 Array Model for AoA/DOA Estimation -- 5.2.2 Array Transfer Vector 5.2.3 Uniform Linear Array for AoA/DoA Estimation -- 5.3 Time Difference of Arrival Methods -- 5.3.1 Time of Arrival -- 5.3.2 Difference of Time of Arrivals -- 5.3.3 Hyperbolic Isochrones -- 5.3.4 TDOA Calculation Details -- 5.4 Frequency Difference of Arrival Methods -- 5.4.1 Doppler Frequency -- 5.4.2 Difference of Doppler Frequencies -- 5.4.3 FDOA Calculation Details -- 5.5 Cross Ambiguity Function -- 5.6 Summary -- References -- 3 Access to RF Signals -- 3.1 Introduction -- 3.2 RF Signal Collection Platforms -- 3.2.1 RF Signal Collection from Ground -- 3.2.2 RF Signal Collection from Water 3.2.3 RF Signal Collection from Air -- 3.2.4 RF Signal Collection from Space -- 3.3 Altitude and Shape of Orbits -- 3.3.1 Low-Earth Orbit -- 3.3.2 Medium-Earth Orbit -- 3.3.3 High-Earth Orbit -- 3.3.4 Special Orbit Terminology -- 3.4 Orbital Mechanics -- 3.5 Conclusion -- References -- 6 Signals Detection and Estimation -- 6.1 Introduction -- 6.2 Detection Theory -- 6.2.1 Signal Detection Terminology -- 6.2.2 Signal Detection Strategy -- 6.3 Detection of Signals in Noise -- 6.3.1 Matched Filter -- 6.3.2 Matched Filter: Correlator and Convolution -- 6.3.3 White Noise Versus Colored Noise 6.3.4 Detection of Known Signals in White Noise -- 6.3.5 Detection of Known Signals in Colored Noise -- 6.3.6 Detection of Random Signals -- 6.3.7 Detection in Non-Gaussian Noise -- 6.3.8 Designing Detectors with Unknown Parameters -- 6.4 Signal Parameter Estimation -- 6.4.1 Minimum Variance Unbiased Estimation -- 6.4.2 Cramer-Rao Lower Bound -- 6.4.3 Maximum Likelihood Estimation -- 6.4.4 Maximum A Posteriori Estimator -- 6.5 Summary -- References -- 7 Cryptography Fundamentals -- 7.1 Introduction -- 7.1.1 Connection with Signals Collection -- 7.1.2 Primary Goals of Cryptography
9781630816919 1630816914
10302945 IEEE
Electronic surveillance.
Surveillance �electronique.
Electronic surveillance.
TK7882.E2 / G37 2023
621.389/28
Essential principles of signals collection and analysis / David A. Garren, Uttam K. Majumder, Erik P. Blasch. - 1 online resource (xii, 205 pages) : illustrations.
Includes bibliographical references and index.
Intro -- Essential Principles of Signals Collection and Analysis -- Contents -- Foreword -- 1 Introduction to Signals Collection and Analysis -- 1.1 Key Foundations -- 1.2 Presentation Organization -- 2 RF Signals Classification -- 2.1 Introduction -- 2.2 Communication Channels -- 2.3 RF Signals Analysis -- 2.4 RF Analog Signals Modulation -- 2.5 RF Digital Signals Modulation -- 2.6 RF Shift Keying -- 2.7 RF Wi-Fi -- 2.8 RF Signal Detection -- 2.9 Conclusions -- References -- 4 Radar Fundamentals -- 4.1 Introduction -- 4.2 Electromagnetic Theory -- 4.2.1 Maxwell's Equations 4.2.2 EM Wave Propagation -- 4.2.3 EM Wave Polarization -- 4.3 Antennas -- 4.3.1 Pure Magnetic Dipole Antenna Concept -- 4.3.2 Transmission and Reception Beam Patterns -- 4.4 Radar Equation -- 4.4.1 Signal Power Over One-Way Link -- 4.4.2 Target Radar Cross Section -- 4.4.3 EM Power Density for Monostatic Receiver -- 4.5 Summary -- References -- 5 Geolocation -- 5.1 Introduction -- 5.1.1 Emitter and Collector Assumptions -- 5.1.2 Possible Vignettes -- 5.2 Angle of Arrival Methods -- 5.2.1 Array Model for AoA/DOA Estimation -- 5.2.2 Array Transfer Vector 5.2.3 Uniform Linear Array for AoA/DoA Estimation -- 5.3 Time Difference of Arrival Methods -- 5.3.1 Time of Arrival -- 5.3.2 Difference of Time of Arrivals -- 5.3.3 Hyperbolic Isochrones -- 5.3.4 TDOA Calculation Details -- 5.4 Frequency Difference of Arrival Methods -- 5.4.1 Doppler Frequency -- 5.4.2 Difference of Doppler Frequencies -- 5.4.3 FDOA Calculation Details -- 5.5 Cross Ambiguity Function -- 5.6 Summary -- References -- 3 Access to RF Signals -- 3.1 Introduction -- 3.2 RF Signal Collection Platforms -- 3.2.1 RF Signal Collection from Ground -- 3.2.2 RF Signal Collection from Water 3.2.3 RF Signal Collection from Air -- 3.2.4 RF Signal Collection from Space -- 3.3 Altitude and Shape of Orbits -- 3.3.1 Low-Earth Orbit -- 3.3.2 Medium-Earth Orbit -- 3.3.3 High-Earth Orbit -- 3.3.4 Special Orbit Terminology -- 3.4 Orbital Mechanics -- 3.5 Conclusion -- References -- 6 Signals Detection and Estimation -- 6.1 Introduction -- 6.2 Detection Theory -- 6.2.1 Signal Detection Terminology -- 6.2.2 Signal Detection Strategy -- 6.3 Detection of Signals in Noise -- 6.3.1 Matched Filter -- 6.3.2 Matched Filter: Correlator and Convolution -- 6.3.3 White Noise Versus Colored Noise 6.3.4 Detection of Known Signals in White Noise -- 6.3.5 Detection of Known Signals in Colored Noise -- 6.3.6 Detection of Random Signals -- 6.3.7 Detection in Non-Gaussian Noise -- 6.3.8 Designing Detectors with Unknown Parameters -- 6.4 Signal Parameter Estimation -- 6.4.1 Minimum Variance Unbiased Estimation -- 6.4.2 Cramer-Rao Lower Bound -- 6.4.3 Maximum Likelihood Estimation -- 6.4.4 Maximum A Posteriori Estimator -- 6.5 Summary -- References -- 7 Cryptography Fundamentals -- 7.1 Introduction -- 7.1.1 Connection with Signals Collection -- 7.1.2 Primary Goals of Cryptography
9781630816919 1630816914
10302945 IEEE
Electronic surveillance.
Surveillance �electronique.
Electronic surveillance.
TK7882.E2 / G37 2023
621.389/28