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Mobile-to-mobile wireless channels / Alenka Zajić.

By: Material type: TextTextSeries: Artech House mobile communications seriesPublication details: Boston : Artech House, ©2013.Description: 1 online resource (298 pages) : illustrationsContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781608074969
  • 160807496X
Subject(s): Additional physical formats: Print version:: Mobile-to-Mobile Wireless Channels.DDC classification:
  • 621.384 23
LOC classification:
  • TK5103.2 .Z35 2013
Online resources:
Contents:
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 Channels1.3.5 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 Channels2.3.3 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 Channels2.4 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 Measurements2.6 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.
Summary: Present-day mobile communications systems can be classified as fixed-to-mobile because they allow mobility on only one end (e.g. the mobile phone to a fixed mobile operator's cell tower). In answer to the consumer demand for better coverage and quality of service, emerging mobile-to-mobile (M-to-M) communications systems allow mobile users or vehicles to directly communicate with each other. This practical book provides a detailed introduction to state-of-the-art M-to-M wireless propagation. Moreover, the book offers professionals guidance for rapid implementation of these communications syste.
Holdings
Item type Current library Collection Call number Status Date due Barcode Item holds
eBook eBook e-Library EBSCO Technology Available
Total holds: 0

Includes bibliographical references and index.

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 Channels1.3.5 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 Channels2.3.3 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 Channels2.4 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 Measurements2.6 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.

Present-day mobile communications systems can be classified as fixed-to-mobile because they allow mobility on only one end (e.g. the mobile phone to a fixed mobile operator's cell tower). In answer to the consumer demand for better coverage and quality of service, emerging mobile-to-mobile (M-to-M) communications systems allow mobile users or vehicles to directly communicate with each other. This practical book provides a detailed introduction to state-of-the-art M-to-M wireless propagation. Moreover, the book offers professionals guidance for rapid implementation of these communications syste.

Online resource; title from digital title page (viewed on February 25, 2013).

Added to collection customer.56279.3

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