Mobile-to-Mobile Wireless Channels -- Contents -- Preface -- Chapter 1 Introduction -- 1.1 Mobile-to-Mobile Communication Systems -- 1.1.1 Vehicle-to-Vehicle Communication Systems -- 1.1.2 Air-to-Ground Communication Systems -- 1.1.3 Underwater Vehicle-to-Underwater Vehicle Systems -- 1.2 The Wireless Channel -- 1.2.1 Fading -- 1.2.2 Statistical Properties of Channels -- 1.3 Overview of Remaining Chapters -- 1.3.1 Chapter 2: Fixed-to-Mobile Cellular Radio Channels -- 1.3.2 Chapter 3: Vehicle-to-Vehicle Radio Channels -- 1.3.3 Chapter 4: Air-to-Ground Radio Channels -- 1.3.4 Chapter 5: Underwater Vehicle-to-Underwater Vehicle Acoustic Channels -- 1.3.5 Appendixes -- References -- Chapter 2 Fixed-to-Mobile Cellular Radio Channels -- 2.1 Propagation Principles -- 2.1.1 Free Space Propagation -- 2.1.2 Reflection -- 2.1.3 Diffraction -- 2.1.4 Scattering -- 2.2 Propagation Modeling -- 2.2.1 Large-Scale Fading-Pathloss -- 2.2.2 Large-Scale Fading-Shadowing -- 2.2.3 Small-Scale Fading-Multipath Propagation -- 2.2.4 Factors Influencing Small-Scale Fading -- 2.3 Statistical Characterization of Multipath Propagation in F-to-M Cellular Radio Channels -- 2.3.1 Received Envelope Distribution -- 2.3.2 Clarke's Model for F-to-M Frequency Flat Multipath Fading Channels -- 2.3.3 Correlation Functions and Doppler Power Spectra for Isotropic Scattering Channels -- 2.3.4 Correlation Functions and Doppler Power Spectrum for Nonisotropic Scattering Channels -- 2.3.5 Second-Order Statistics-Level Crossing Rates and Fade Durations -- 2.3.6 Modeling of F-to-M Frequency-Selective Multipath Fading Channels -- 2.3.7 Correlation Functions for F-to-M Frequency-Selective Multipath Fading Channels -- 2.3.8 Channel Characteristic Parameters-Delay Spread, Power Delay Profile, and Channel Coherence -- 2.3.9 MIMO F-to-M Cellular Radio Channels.

2.4 Simulators for Fixed-to-Mobile Cellular Radio Channels -- 2.4.1 Simulation Models for F-to-M Frequency-Flat Multipath Fading Channels -- 2.4.2 Deterministic and Statistical SoS Simulation Models for F-to-M Frequency-Flat Multipath Fading Channels -- 2.4.3 Simulation Models for F-to-M Frequency-Selective Multipath Fading Channels -- 2.5 Small-Scale Channel Measurement Techniques -- 2.5.1 Direct Pulse-Based Channel Impulse Response Measurements -- 2.5.2 Spread Spectrum-Based Channel Impulse Response Measurements -- 2.5.3 Frequency Domain-Based Channel Impulse Response Measurements -- 2.6 Summary -- References -- Chapter 3 Vehicle-to-Vehicle Radio Channels -- 3.1 V-to-V Propagation Modeling -- 3.1.1 Large-Scale Fading-Pathloss and Shadowing -- 3.1.2 Small-Scale Fading-Multipath Propagation -- 3.1.3 Akki and Haber's Model for V-to-V Frequency-FlatMultipath Fading Channels -- 3.1.4 Temporal Fading Characteristics of V-to-V Frequency-Flat MultipathFading Channels -- 3.1.5 Two-Dimensional Model for MIMO V-to-V Frequency-Flat Multipath Fading Channels -- 3.1.6 Spatial-Temporal Fading Characteristics of V-to-V Frequency-Flat Multipath Fading Channels -- 3.1.7 Estimation of Mobile Velocities in V-to-V Channels -- 3.1.8 Estimation of Direction of Movement in V-to-V Channels -- 3.1.9 Modeling of V-to-V Frequency-Selective Multipath Fading Channels -- 3.1.10 Spectral-Spatial-Temporal Fading Characteristics of V-to-V Frequency-Selective Multipath Fading Channels -- 3.2 Impact of Antenna Coupling on MIMO V-to-V Channels -- 3.2.1 MIMO V-to-V System Model -- 3.2.2 Modeling of MIMO V-to-V Channels with Mutual Coupling -- 3.2.3 Analysis of MIMO V-to-V Channel with Mutual Coupling -- 3.3 Simulators for Vehicle-to-Vehicle Radio Channels -- 3.3.1 Simulators for V-to-V Frequency-Flat Multipath Fading Channels.

3.3.2 Simulators for V-to-V Frequency-Selective Multipath Fading Channels -- 3.4 Vehicle-to-Vehicle Measurement Campaigns and Modeling -- 3.4.1 Validation of the 3-D Wideband Model for V-to-V Frequency-Selective Multipath Fading Channels -- 3.5 Summary -- References -- Chapter 4 Air-to-Ground Radio Channels -- 4.1 A-to-G Propagation Modeling -- 4.1.1 Large-Scale Fading-Pathloss -- 4.1.2 Large-Scale Fading-Shadowing -- 4.1.3 Small-Scale Fading-Multipath Propagation -- 4.2 Statistical Characterization of Multipath Propagation in A-to-GRadio Channels -- 4.2.1 Received Envelope Distribution -- 4.2.2 Statistical Modeling of A-to-G Multipath Channels -- 4.2.3 Two-Ray Model for A-to-G Multipath Fading Channels -- 4.2.4 A Scattering Model for A-to-G Multipath Fading Channels -- 4.2.5 Three-Dimensional Model for MIMO A-to-G Multipath Fading Channels -- 4.2.6 Spatial-Temporal Fading Characteristics of A-to-G Multipath Fading Channels -- 4.3 Simulators for Air-to-Ground Radio Channels -- 4.3.1 Sum-of-Sinusoids Simulators for A-to-G Channels -- 4.4 Summary -- References -- Chapter 5 Underwater Vehicle-to-Underwater Vehicle Acoustic Channels -- 5.1 Underwater Propagation Principles -- 5.1.1 An Underwater Communication System -- 5.1.2 Underwater Noise -- 5.1.3 Propagation Principles -- 5.1.4 Refraction -- 5.1.6 Scattering -- 5.2 UV-to-UV Acoustic Propagation Modeling -- 5.2.1 Large-Scale Fading-Pathloss -- 5.2.2 Large-Scale Fading-Shadowing -- 5.2.3 Small-Scale Fading-Multipath Propagation -- 5.2.4 Factors Influencing Small-Scale Fading -- 5.3 Statistical Characterization of Multipath Propagation in UV-to-UVAcoustic Channels -- 5.3.1 Received Envelope Distribution -- 5.3.2 Statistical Modeling of UV-to-UV Frequency FlatAcoustic Fading Channels -- 5.3.3 Temporal Fading Characteristics of UV-to-UV FrequencyFlat Acoustic Fading Channels.

5.3.4 Two-Dimensional Model for MIMO UV-to-UV Frequency-FlatAcoustic Fading Channels -- 5.3.5 Spatial-Temporal Fading Characteristics of UV-to-UV Frequency-FlatMIMO Acoustic Fading Channels -- 5.3.6 Modeling of Underwater Acoustic Particle Velocity Channels -- 5.3.7 Modeling of UV-to-UV Frequency-Selective Acoustic Fading Channels -- 5.3.8 Spectral-Spatial-Temporal Fading Characteristics of UV-to-UVFrequency-Selective Acoustic Fading Channels -- 5.4 Simulators for UV-to-UV Acoustic Channels -- 5.4.1 Simulators for UV-to-UV Frequency-Flat and Frequency-SelectiveAcoustic Fading Channels -- 5.5 Underwater Acoustic Channel MeasurementCampaigns and Modeling -- 5.5.1 Validation of the Model for UV-to-UV Frequency-SelectiveAcoustic Fading Channels -- 5.6 Summary -- References -- Appendix A Probability and Random Processes -- A.1 Random Variables and Probability -- A.1.1 Important Probability Density Functions -- A.1.2 Functions of Random Variables -- A.2 Random Processes -- A.2.1 Moments and Correlation Functions -- A.2.2 Crosscorrelation and Crosscovariance -- A.2.3 Complex-Valued Random Processes -- A.2.4 Power Spectral Density -- A.2.5 Deterministic Continuous-Time Signals -- References -- Appendix B Description of Simulators for Fixed-to-Mobile Cellular, Vehicle-to-vehicle, Air-to-Ground, and Underwater Vehicle-to-Underwater Vehicle Channels -- B.1 Simulator for Fixed-to-Mobile Cellular Channels -- B.2 Simulator for Vehicle-to-Vehicle Channels -- B.3 Simulator for Air-to-Ground Channels -- B.4 Simulator for Underwater Vehicle-to-Underwater Vehicle Channels -- References -- Index.