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Integrated Satellite-Terrestrial Network Fundamentals for Mobile Communications



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Autore: Xiao Lixia Visualizza persona
Titolo: Integrated Satellite-Terrestrial Network Fundamentals for Mobile Communications Visualizza cluster
Pubblicazione: Norwood : , : Artech House, , 2025
©2025
Edizione: 1st ed.
Descrizione fisica: 1 online resource (299 pages)
Altri autori: XiaoPei-  
JiangTao  
Nota di contenuto: Intro -- Integrated Satellite-Terrestrial Network Fundamentals for Mobile Communications -- Contents -- Preface -- Chapter 1 Concept of Satellite-Terrestrial Integrated Communication -- 1.1 Terrestrial Mobile Communication -- 1.2 Satellite Mobile Communication -- 1.3 Typical Satellite Communication Systems -- 1.3.1 High-Orbit Narrowband System -- 1.3.2 High-Orbit Broadband System -- 1.3.3 Low-Orbit Narrowband Systems -- 1.3.4 Low-Orbit Broadband Systems -- 1.4 Satellite-Terrestrial Integrated Communication -- 1.4.1 Competition with Terrestrial Communication -- 1.4.2 Complement to Terrestrial Communication -- 1.4.3 Convergence with Terrestrial Communication -- 1.4.4 The Vision of Integrated Communication -- References -- Chapter 2 The Evolution for Satellite-Terrestrial Integrated Communication -- 2.1 Demand for Integrated Communication -- 2.2 Typical Application Scenarios -- 2.3 Integration Models -- 2.3.1 Service Models -- 2.3.2 Networking Models -- 2.3.3 Terminal Development Models -- 2.4 Evolution of International Standards -- 2.4.1 Release-15 for NR NTN -- 2.4.2 Release-16 for New Radio NTN -- 2.4.3 Release-17 for NR NTN -- 2.4.4 Release-18 for NR NTN -- 2.4.5 Other Initiatives -- 2.5 Possible Challenges -- References -- Chapter 3 Constellation Design for Satellite-Terrestrial IntegratedCommunication -- 3.1 Overview of Satellite Constellations -- 3.1.1 Definition of Satellite Constellation -- 3.1.2 Development of Satellite Constellations -- 3.2 Classification of Satellite Constellations -- 3.2.1 Walker Constellation -- 3.2.2 Star Constellation -- 3.2.3 Flower Constellation -- 3.2.4 Classical Satellite Constellation Design Solution -- 3.3 Satellite Constellation Design -- 3.3.1 Configuration Design -- 3.3.2 Coverage Design -- 3.3.3 Design Factor Analysis -- References -- Chapter 4 Intersatellite Free-Space Optical Communication.
4.1 Fundamentals -- 4.2 Key Techniques -- 4.2.1 Link Construction -- 4.2.2 Signal Modulation Technique -- 4.2.3 Laser Antenna Technology -- 4.2.4 Microwave Antenna Technology -- 4.3 Current Status and Possible Challenges -- 4.3.1 Current Status -- 4.3.2 Possible Challenges -- References -- Chapter 5 Channel Models for Satellite-Terrestrial Integrated Communication -- 5.1 Wireless Channel Fundamentals -- 5.2 Satellite-Terrestrial Channel Characteristics -- 5.2.1 Free-Space Loss -- 5.2.2 Ionospheric Scintillation -- 5.2.3 Shadow Fading and Clutter Loss -- 5.2.4 Rain Fading -- 5.2.5 Multipath Fading -- 5.2.6 Doppler Effect -- 5.2.7 Atmospheric Absorption -- 5.2.8 Building Penetration Loss -- 5.3 Classical Satellite-Terrestrial Channel Models -- 5.3.1 The C.Loo Model -- 5.3.2 Corazza Model -- 5.3.3 Lutz Model -- 5.3.4 TDL Satellite Mobile Channel Models -- 5.4 Evolution of Satellite-Terrestrial Channel Standards -- References -- Chapter 6 Channel Coding for Satellite-Terrestrial Integrated Communication -- 6.1 Classical Channel Coding -- 6.1.1 Linear Block Code -- 6.1.2 Convolutional Code -- 6.2 Channel Coding for Terrestrial Communication -- 6.2.1 Cellular Mobile Communication -- 6.2.2 Wireless Local Area Network Communication -- 6.3 Channel Coding for Satellite Communication -- 6.3.1 Deep-Space Communication -- 6.3.2 Near-Space Communication -- 6.4 Integrated Satellite-Terrestrial Channel Coding -- 6.4.1 The Current Research Status -- 6.4.2 Possible Challenges -- 6.4.3 Possible Channel Coding Schemes -- References -- Chapter 7 Signal Modulation for Satellite-Terrestrial Integrated Communication -- 7.1 Classic Modulation Waveforms -- 7.1.1 Baseband Modulation -- 7.1.2 OFDM-Based MC Modulation -- 7.1.3 DFT-s-OFDM-Based SC Modulation -- 7.2 Modulation Standard for Cellular Mobile Communication -- 7.2.1 Modulation for 1G Communication.
7.2.2 Modulation for 2G Communication -- 7.2.3 Modulation for 3G Communication -- 7.2.4 Modulation for 4G Communication -- 7.2.5 Modulation for 5G Communication -- 7.3 Modulation Standard for Satellite Communication -- 7.3.1 Modulation for DVB-S Communication -- 7.3.2 Modulation for DVB-S2 Communication -- 7.3.3 Modulation for DVB-S2X Communication -- 7.3.4 Modulation for DVB-SH Communication -- 7.3.5 Modulation for ATSC Communication -- 7.3.6 Modulation for ISDB-S Communication -- 7.4 Potential Modulation for Integrated Communication -- 7.4.1 Irregular Baseband Modulation -- 7.4.2 FBMC Multicarrier Modulation -- 7.4.3 UFMC Multicarrier Modulation -- 7.4.4 GFDM Multicarrier Modulation -- 7.4.5 OTFS Multicarrier Modulation -- 7.4.6 OCDM Multicarrier Modulation -- 7.4.7 AFDM Multicarrier Modulation -- 7.4.8 Performance Analysis -- 7.5 Design Guidelines -- 7.5.1 Irregular Constellation Configuration Design -- 7.5.2 Integrated Coding and Modulation -- 7.5.3 Versatile Carrier Waveform Design -- 7.5.4 AI-Aided Adaptive Waveform -- References -- Chapter 8 Multiantenna Technique for Satellite-Terrestrial Integrated Communication -- 8.1 Antenna Technology Introduction -- 8.1.1 Satellite Antenna Classification -- 8.1.2 Beamforming Technique -- 8.2 Satellite-Terrestrial User Link Antenna Technology -- 8.2.1 Single Satellite Beamforming -- 8.2.2 Multisatellite Beamforming -- 8.2.3 Characteristics of User Terminal Antennas -- 8.3 Satellite-Terrestrial Feeder Link Antenna Technology -- References -- Chapter 9 Multiple Access for Satellite-Terrestrial Integrated Communication -- 9.1 Classic OMA Schemes -- 9.1.1 FDMA -- 9.1.2 TDMA -- 9.1.3 CDMA -- 9.1.4 OFDMA -- 9.1.5 SC-FDMA -- 9.2 Classic NOMA Schemes -- 9.2.1 PD-NOMA -- 9.2.2 MUSA -- 9.2.3 SCMA -- 9.2.4 PDMA -- 9.3 MA for Terrestrial Cellular Communication -- 9.4 MA for Satellite Communication -- 9.4.1 MF-TDMA.
9.4.2 Hybrid TDMA/CDMA -- 9.5 Potential MA for Integrated Communication -- 9.5.1 Rate Splitting Multiple Access -- 9.5.2 Interleave Division Multiple Access -- 9.5.3 Lattice Partition Multiple Access -- References -- Chapter 10 Resource Management forSatellite-Terrestrial Integrated Communication -- 10.1 Overview of Multidimensional Resources -- 10.1.1 Spectrum Resources -- 10.1.2 Power Resources -- 10.1.3 Time Slot Resources -- 10.2 Resource Management Technology -- 10.2.1 Frequency Reuse Technology -- 10.2.2 Beam Hopping Technology -- 10.3 Intersatellite Resource Management -- 10.3.1 Limited On-Satellite Power -- 10.3.2 Dynamic Time Slot Allocation -- 10.3.3 Channel Availability in Short Time Slots -- 10.3.4 Cross-Orbit Multilayer Cooperative Transmission -- 10.3.5 Intersatellite Transmission Based on OPA -- 10.4 Interference Management -- 10.4.1 Natural Interference -- 10.4.2 Space Interference -- 10.5 Interference Management Technology -- 10.5.1 Adaptive Antenna Anti-Interference Technology -- 10.5.2 On-Satellite Processing Technology -- 10.5.3 Spread Spectrum Technology -- 10.5.4 Adaptive Modulation and Coding Technology -- 10.5.5 Digital Predistortion Technology -- References -- Chapter 11 Mobility Management for Satellite-Terrestrial Integrated Communication -- 11.1 Overview of Mobility Management -- 11.2 Link Layer Management Technology -- 11.2.1 5G Handover Management -- 11.2.2 Beam Handover -- 11.2.3 Interstellar Hand -- 11.3 Network Layer Management Technology -- 11.3.1 MIPv6 Technology -- 11.3.2 PMIPv6 Technology -- 11.3.3 HiMIPv6 Technology -- 11.3.4 VMIPv6 Technology -- 11.4 Transport Layer Management Technology -- 11.4.1 SIGMA Technology -- 11.4.2 Predictive SIGMA Technology -- 11.5 Potential Mobility Management Technology -- 11.5.1 SDN-Based Mobility Management -- 11.5.2 Mobility Management Based on O-RAN -- References.
List of Acronyms and Abbreviations -- About the Authors -- Index.
Titolo autorizzato: Integrated Satellite-Terrestrial Network Fundamentals for Mobile Communications  Visualizza cluster
ISBN: 9781685690106
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9911038504903321
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