6G Wireless Communications and Mobile Networking:
Gespeichert in:
| Weitere Verfasser: | , , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Sharjah :
Bentham Science Publishers,
2021.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | Description based upon print version of record. |
| Beschreibung: | 1 online resource (268 p.) |
| ISBN: | 1681087960 9781681087962 |
Internformat
MARC
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| 245 | 0 | 0 | |a 6G Wireless Communications and Mobile Networking |h [electronic resource]. |
| 260 | |a Sharjah : |b Bentham Science Publishers, |c 2021. | ||
| 300 | |a 1 online resource (268 p.) | ||
| 500 | |a Description based upon print version of record. | ||
| 505 | 0 | |a Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Explaining 6G Spectrum THz, mmWave, Sub 6, and Low-Band -- Xianzhong Xie1,*, Bo Rong2 and Michel Kadoch3 -- THE SIXTH GENERATION MOBILE COMMUNICATION (6G) -- THE INEVITABILITY OF 6G RESEARCH -- The 10-year Cycled Rule -- "Catfish Effect" -- The Explosive Potential of IoT Business Models -- The 5G Performance Would Limit New IoT Applications -- INTERNATIONAL ORGANIZATION FOR STANDARDIZATION -- International Telecommunication Union (ITU) -- The Third Generation Partnership Project (3GPP) -- Institute of Electrical and Electronics Engineers (IEEE) -- 6G RESEARCH PROGRESS IN SOME COUNTRIES/REGIONS -- European Union -- United States -- Japan -- South Korea -- China -- 6G SPECTRUM COMPOSITION -- Spectrum Requirements for 6G -- SUB-6 -- The Low Frequency Spectrum -- Added Spectrum of 6 GHz -- Capacity and Coverage -- The Spectrum Allocation of Sub-6 -- Spectrum for 5G NR -- Spectrum Selection of Systems -- mmWAVE -- 6G mmWave Communication -- Advantages of mmWave -- Unlicensed mmWave Bands -- Spectrum Options for 6G -- Terahertz (THz) -- 6G Terahertz Communication -- Terahertz Spectrum -- Advantages of Terahertz -- Challenges in the Terahertz Bands -- Related Technology for Terahertz Communication -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Millimeter Wave Communication Technology -- Aart W. Kleyn1, Wei Luo2,* and Bo Yin2 -- INTRODUCTION -- CHARACTERISTIC AND APPLICATION OF MILLIMETER WAVE -- Characteristic of Millimeter Wave -- Usable Frequency Bandwidth and Large Information Capacity -- Short Wavelength in Millimeter Wave Band -- Significant Impact of the Atmosphere on Millimeter Wave Transmission -- Application of Millimeter Wave -- Millimeter Wave Communication System. | |
| 505 | 8 | |a Millimeter Wave Weapon -- Millimeter Wave Imaging Technology -- Millimeter Wave Radar -- MILLIMETER WAVE TECHNOLOGY IN MOBILE COMMUNICATION -- Millimeter Wave Propagation Model and Channel Model -- Large-scale Loss Propagation Model -- Small-scale Propagation Model -- Millimeter Wave Channel Model -- MiWEBA Channel Model -- METIS Channel Model -- New York University Channel Model -- mmMAGIC Channel Model -- 5GCM Channel Model -- 3GPP High Frequency Channel Model -- Shortage of Existing Millimeter Wave Channel and Its Future Development Trend -- The Waveform of Millimeter Wave in Mobile Communication -- Performance of Candidate Waves in High Frequency Band of Mobile Communication -- The Influence of RF Link on Millimeter Wave Waveform Signal -- Massive MIMO for Millimeter Wave Communication -- Basic Architecture of Millimeter Wave Massive MIMO -- Current Research Direction -- Hybrid Beamforming in MIMO -- Millimeter Wave Network Backhaul Technology in Mobile Communication -- Millimeter Wave Backhaul Network Architecture -- Millimeter Wave Network Backhaul Technology -- 5G NR Technology -- Self-Backhaul Technology -- Small Base Station Backhaul Technology -- Key Technologies for mmWave Network Backhaul -- Effective Spatial Reuse -- Efficient Path Establishment -- Reasonable Resource Allocation -- Convenient Access Network Cache -- Millimeter Wave Network Technology in Mobile Communications -- Ultra-Dense Network -- Key Technology of Network -- Virtual Layer Technology -- Multi-Connection Technology -- Anti-Interference Management -- Wireless Return Method -- Problems Faced by Network -- System Interference -- System Cost and Energy Consumption -- Low-Power Base Station -- UDN Deployment Plan -- Deployment Plan -- Deployment Architecture -- MAIN COMPONENTS OF MILLIMETER WAVE COMMUNICATION -- Filter -- ADC/DAC -- Oscillator -- Power Amplifier -- SUMMARY. | |
| 505 | 8 | |a CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Antenna Evolution for Massive MIMO -- Min Wang1,* and Brian D. Gerardot2 -- INTRODUCTION -- OVERVIEW OF ANTENNA IN WIRELESS COMMUNICATION -- Evolution of Base Station Antenna -- Wide Band Antenna -- Miniaturization Technology for Base Station Antenna -- Active Base Station Antenna System -- Multiple Beam Antenna System -- Development of User Equipment Antenna -- Electromagnetic Decoupling of Antenna Elements -- Design of Integrated Antenna -- Requirements of Communication Technology on Antenna Technology -- Development Trends of Massive MIMO Antenna for 6G -- Massive MIMO for 6G -- Principle of Massive MIMO -- Fundamental Theory of Massive MIMO -- RIS-Aided Wireless Communications -- A. Capacity Rate Enhancement -- B. Power Optimizations -- C. Channel Estimation -- D. Deep Learning-Based Design -- E. Secure Communications -- F. Terminal-positioning and Other Novel Applications -- MASSIVE MIMO ANTENNA FOR MOBILE COMMUNICATIONS -- Massive MIMO Antenna Array Design and Synthesis -- Massive MIMO Antenna Decoupling Technology -- Large-Scale Antenna Beamforming Technology -- Null-notch Beamforming Algorithm Based on LMS Criterion -- DESIGN OF FEED NETWORK AND RF FRONT-END -- Feeding Technology of Base Station Antenna -- Design of RF Front-End for Large-Scale Active Antenna -- ANTENNA SELECTION TECHNOLOGY -- Antenna Selection Criteria and Classification -- Optimal Antenna Selection Algorithm -- Incremental Antenna Selection Algorithm -- Decreasing Antenna Selection Algorithm -- MEASUREMENT TECHNOLOGY OF MASSIVE MIMO ANTENNA -- OTA Testing Requirements for Massive MIMO Antenna -- Near-Field and Far-Field Measurement -- Far-Field Test -- Near-Field Test: -- OTA Testing Process -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES. | |
| 505 | 8 | |a Terahertz Technology Applied in Mobile Communications -- Anthony J. Vickers1 and Jia Ran2,* -- INTRODUCTION -- TERAHERTZ TECHNOLOGIES -- Terahertz Wave -- Terahertz Devices -- Terahertz Sources -- Terahertz Modulators -- Terahertz Amplitude Modulator -- Terahertz Phase Modulator -- Terahertz Antennas -- Terahertz Detectors -- Applications -- Imaging -- Spectral Analysis -- Communications -- Difference with Other Communications -- TERAHERTZ WIRELESS COMMUNICATIONS -- Terahertz Wireless Communication Systems -- Solid State System -- Direct Modulation System -- Key technologies in Terahertz Communications -- Transceiver -- Pure Electronic Devices -- Optical Heterodyne Method -- Semiconductor Laser -- Detector -- Direct Detection Terahertz Receiver -- Superheterodyne Detection Receiver -- Beamforming and Beam Tracking -- Path Loss, Noise, Capacity -- Transmission Loss and Noise -- Reflection Loss -- Scattering Loss -- Channel Cavity -- Terahertz Channel Model -- Outdoor Channel Model -- Indoor Channel Model -- Ray Tracing -- Terahertz Wireless Mobile Communications -- WPAN and WLAN -- VR -- Directional Networks -- Secure Communications -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Intelligent Network Slicing Management and Control for 6G Mobile Networks -- Fanqin Zhou1,* and Mohamed Cheriet2 -- INTRODUCTION -- NETWORK SLICING AND ITS NEW REQUIREMENTS FOR 6G -- The Concept of Network Slicing -- Network Slicing Management in 5G -- Requirements of 6G Network Slicing -- Flexibility and Scalability in the Slicing Management Architecture -- Efficient Resource Allocation and Orchestration -- Adaptive Service Function Chaining and Recursion -- SON-DRIVEN NETWORK SLICING FOR 6G NETWORKS -- SON-driven Network Slicing Management Architecture -- Management Process in SON-driven NSMA. | |
| 505 | 8 | |a Prediction-based Robust Dynamic Slicing -- 1) Scaling -- 2) Remapping -- 3) Appending -- CASE STUDY AND NUMERICAL EVALUATIONS -- Case Study -- Numerical Results -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Applications and Implementations of 6G Internet of Things -- Tao Hong1,* and Fei Qi2 -- INTRODUCTION -- Internet of Things -- THE IMPACT OF IOT APPLICATION REQUIREMENTS ON 6G -- NEW FEATURES OF VEHICULAR IOT APPLICATIONS -- VEHICULAR IOT DEMANDS MORE THAN 5G -- THE CONCEPT AND VISION OF 6G MASSIVE IOT -- The Development Of Massive Iot Concepts -- 5G Massive IoT -- B5G/6G Massive IoT -- Main Features of 6G Massive IoT -- Typical Scenarios andamp -- Applications -- THE CHALLENGE AND POTENTIAL TECHNOLOGIES OF 6G VEHICULAR IOT -- Challenges for Vehicular IoT to be Addressed in 6G -- Coexistence and Cooperation of Diverse RATs For Optimized CV2X -- Convergence of Sensing, Computing, Communication, Caching, and Control -- Vehicular IoT Technical Verifications and Testing -- Promising Technologies of 6G IoT -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Cloud/edge Computing and Big Data System with 6G -- Peng Yu1,* and Lei Shi2 -- CLOUD COMPUTING WITH 6G -- The Development and Characteristics of Cloud Computing -- BASIC CONCEPTS OF CLOUD COMPUTING -- Private Cloud -- Community Cloud -- Public Cloud -- Hybrid Cloud -- NEW APPLICATION OF CLOUD COMPUTING IN 6G ERA -- SENSING AND POSITIONING IN 6G ERA WITH CLOUD -- THE PLACEMENT OF SLICE-SPECIFIC FUNCTION IN CLOUD -- THE CONTRIBUTION OF CLOUD COMPUTING FOR MOBILE COMMUNICATIONS IN 6G -- APPLICATION OF EDGE COMPUTING -- The Emergence of MEC -- The Advantages and Disadvantages of MEC -- The Advantages of MEC -- The Disadvantages of MEC -- Edge Computing in 6G Era -- Concept and Vision of 6G. | |
| 650 | 0 | |a Wireless communication systems. |0 http://id.loc.gov/authorities/subjects/sh92006740 | |
| 650 | 0 | |a Mobile communication systems. |0 http://id.loc.gov/authorities/subjects/sh85086371 | |
| 650 | 6 | |a Transmission sans fil. | |
| 650 | 6 | |a Radiocommunications mobiles. | |
| 650 | 7 | |a Mobile communication systems |2 fast | |
| 650 | 7 | |a Wireless communication systems |2 fast | |
| 700 | 1 | |a Xie, Xianzhong. | |
| 700 | 1 | |a Rong, Bo. | |
| 700 | 1 | |a Kadoch, Michel, |d 1944- |1 https://id.oclc.org/worldcat/entity/E39PCjBmpXqhPyf8tGHwVjPw3P |0 http://id.loc.gov/authorities/names/n2012033810 | |
| 758 | |i has work: |a 6G Wireless Communications and Mobile Networking (Text) |1 https://id.oclc.org/worldcat/entity/E39PCGDj49PhPpWH6MFV4q8bJP |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
| 776 | 0 | 8 | |i Print version: |a Xie, Xianzhong |t 6G Wireless Communications and Mobile Networking |d Sharjah : Bentham Science Publishers,c2021 |z 9781681087979 |
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Datensatz im Suchindex
| DE-BY-FWS_katkey | ZDB-4-EBA-on1257084513 |
|---|---|
| _version_ | 1816882545975885824 |
| adam_text | |
| any_adam_object | |
| author2 | Xie, Xianzhong Rong, Bo Kadoch, Michel, 1944- |
| author2_role | |
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| author_GND | http://id.loc.gov/authorities/names/n2012033810 |
| author_facet | Xie, Xianzhong Rong, Bo Kadoch, Michel, 1944- |
| author_sort | Xie, Xianzhong |
| building | Verbundindex |
| bvnumber | localFWS |
| callnumber-first | T - Technology |
| callnumber-label | TK5103 |
| callnumber-raw | TK5103.2 |
| callnumber-search | TK5103.2 |
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| callnumber-subject | TK - Electrical and Nuclear Engineering |
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| contents | Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Explaining 6G Spectrum THz, mmWave, Sub 6, and Low-Band -- Xianzhong Xie1,*, Bo Rong2 and Michel Kadoch3 -- THE SIXTH GENERATION MOBILE COMMUNICATION (6G) -- THE INEVITABILITY OF 6G RESEARCH -- The 10-year Cycled Rule -- "Catfish Effect" -- The Explosive Potential of IoT Business Models -- The 5G Performance Would Limit New IoT Applications -- INTERNATIONAL ORGANIZATION FOR STANDARDIZATION -- International Telecommunication Union (ITU) -- The Third Generation Partnership Project (3GPP) -- Institute of Electrical and Electronics Engineers (IEEE) -- 6G RESEARCH PROGRESS IN SOME COUNTRIES/REGIONS -- European Union -- United States -- Japan -- South Korea -- China -- 6G SPECTRUM COMPOSITION -- Spectrum Requirements for 6G -- SUB-6 -- The Low Frequency Spectrum -- Added Spectrum of 6 GHz -- Capacity and Coverage -- The Spectrum Allocation of Sub-6 -- Spectrum for 5G NR -- Spectrum Selection of Systems -- mmWAVE -- 6G mmWave Communication -- Advantages of mmWave -- Unlicensed mmWave Bands -- Spectrum Options for 6G -- Terahertz (THz) -- 6G Terahertz Communication -- Terahertz Spectrum -- Advantages of Terahertz -- Challenges in the Terahertz Bands -- Related Technology for Terahertz Communication -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Millimeter Wave Communication Technology -- Aart W. Kleyn1, Wei Luo2,* and Bo Yin2 -- INTRODUCTION -- CHARACTERISTIC AND APPLICATION OF MILLIMETER WAVE -- Characteristic of Millimeter Wave -- Usable Frequency Bandwidth and Large Information Capacity -- Short Wavelength in Millimeter Wave Band -- Significant Impact of the Atmosphere on Millimeter Wave Transmission -- Application of Millimeter Wave -- Millimeter Wave Communication System. Millimeter Wave Weapon -- Millimeter Wave Imaging Technology -- Millimeter Wave Radar -- MILLIMETER WAVE TECHNOLOGY IN MOBILE COMMUNICATION -- Millimeter Wave Propagation Model and Channel Model -- Large-scale Loss Propagation Model -- Small-scale Propagation Model -- Millimeter Wave Channel Model -- MiWEBA Channel Model -- METIS Channel Model -- New York University Channel Model -- mmMAGIC Channel Model -- 5GCM Channel Model -- 3GPP High Frequency Channel Model -- Shortage of Existing Millimeter Wave Channel and Its Future Development Trend -- The Waveform of Millimeter Wave in Mobile Communication -- Performance of Candidate Waves in High Frequency Band of Mobile Communication -- The Influence of RF Link on Millimeter Wave Waveform Signal -- Massive MIMO for Millimeter Wave Communication -- Basic Architecture of Millimeter Wave Massive MIMO -- Current Research Direction -- Hybrid Beamforming in MIMO -- Millimeter Wave Network Backhaul Technology in Mobile Communication -- Millimeter Wave Backhaul Network Architecture -- Millimeter Wave Network Backhaul Technology -- 5G NR Technology -- Self-Backhaul Technology -- Small Base Station Backhaul Technology -- Key Technologies for mmWave Network Backhaul -- Effective Spatial Reuse -- Efficient Path Establishment -- Reasonable Resource Allocation -- Convenient Access Network Cache -- Millimeter Wave Network Technology in Mobile Communications -- Ultra-Dense Network -- Key Technology of Network -- Virtual Layer Technology -- Multi-Connection Technology -- Anti-Interference Management -- Wireless Return Method -- Problems Faced by Network -- System Interference -- System Cost and Energy Consumption -- Low-Power Base Station -- UDN Deployment Plan -- Deployment Plan -- Deployment Architecture -- MAIN COMPONENTS OF MILLIMETER WAVE COMMUNICATION -- Filter -- ADC/DAC -- Oscillator -- Power Amplifier -- SUMMARY. CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Antenna Evolution for Massive MIMO -- Min Wang1,* and Brian D. Gerardot2 -- INTRODUCTION -- OVERVIEW OF ANTENNA IN WIRELESS COMMUNICATION -- Evolution of Base Station Antenna -- Wide Band Antenna -- Miniaturization Technology for Base Station Antenna -- Active Base Station Antenna System -- Multiple Beam Antenna System -- Development of User Equipment Antenna -- Electromagnetic Decoupling of Antenna Elements -- Design of Integrated Antenna -- Requirements of Communication Technology on Antenna Technology -- Development Trends of Massive MIMO Antenna for 6G -- Massive MIMO for 6G -- Principle of Massive MIMO -- Fundamental Theory of Massive MIMO -- RIS-Aided Wireless Communications -- A. Capacity Rate Enhancement -- B. Power Optimizations -- C. Channel Estimation -- D. Deep Learning-Based Design -- E. Secure Communications -- F. Terminal-positioning and Other Novel Applications -- MASSIVE MIMO ANTENNA FOR MOBILE COMMUNICATIONS -- Massive MIMO Antenna Array Design and Synthesis -- Massive MIMO Antenna Decoupling Technology -- Large-Scale Antenna Beamforming Technology -- Null-notch Beamforming Algorithm Based on LMS Criterion -- DESIGN OF FEED NETWORK AND RF FRONT-END -- Feeding Technology of Base Station Antenna -- Design of RF Front-End for Large-Scale Active Antenna -- ANTENNA SELECTION TECHNOLOGY -- Antenna Selection Criteria and Classification -- Optimal Antenna Selection Algorithm -- Incremental Antenna Selection Algorithm -- Decreasing Antenna Selection Algorithm -- MEASUREMENT TECHNOLOGY OF MASSIVE MIMO ANTENNA -- OTA Testing Requirements for Massive MIMO Antenna -- Near-Field and Far-Field Measurement -- Far-Field Test -- Near-Field Test: -- OTA Testing Process -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES. Terahertz Technology Applied in Mobile Communications -- Anthony J. Vickers1 and Jia Ran2,* -- INTRODUCTION -- TERAHERTZ TECHNOLOGIES -- Terahertz Wave -- Terahertz Devices -- Terahertz Sources -- Terahertz Modulators -- Terahertz Amplitude Modulator -- Terahertz Phase Modulator -- Terahertz Antennas -- Terahertz Detectors -- Applications -- Imaging -- Spectral Analysis -- Communications -- Difference with Other Communications -- TERAHERTZ WIRELESS COMMUNICATIONS -- Terahertz Wireless Communication Systems -- Solid State System -- Direct Modulation System -- Key technologies in Terahertz Communications -- Transceiver -- Pure Electronic Devices -- Optical Heterodyne Method -- Semiconductor Laser -- Detector -- Direct Detection Terahertz Receiver -- Superheterodyne Detection Receiver -- Beamforming and Beam Tracking -- Path Loss, Noise, Capacity -- Transmission Loss and Noise -- Reflection Loss -- Scattering Loss -- Channel Cavity -- Terahertz Channel Model -- Outdoor Channel Model -- Indoor Channel Model -- Ray Tracing -- Terahertz Wireless Mobile Communications -- WPAN and WLAN -- VR -- Directional Networks -- Secure Communications -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Intelligent Network Slicing Management and Control for 6G Mobile Networks -- Fanqin Zhou1,* and Mohamed Cheriet2 -- INTRODUCTION -- NETWORK SLICING AND ITS NEW REQUIREMENTS FOR 6G -- The Concept of Network Slicing -- Network Slicing Management in 5G -- Requirements of 6G Network Slicing -- Flexibility and Scalability in the Slicing Management Architecture -- Efficient Resource Allocation and Orchestration -- Adaptive Service Function Chaining and Recursion -- SON-DRIVEN NETWORK SLICING FOR 6G NETWORKS -- SON-driven Network Slicing Management Architecture -- Management Process in SON-driven NSMA. Prediction-based Robust Dynamic Slicing -- 1) Scaling -- 2) Remapping -- 3) Appending -- CASE STUDY AND NUMERICAL EVALUATIONS -- Case Study -- Numerical Results -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Applications and Implementations of 6G Internet of Things -- Tao Hong1,* and Fei Qi2 -- INTRODUCTION -- Internet of Things -- THE IMPACT OF IOT APPLICATION REQUIREMENTS ON 6G -- NEW FEATURES OF VEHICULAR IOT APPLICATIONS -- VEHICULAR IOT DEMANDS MORE THAN 5G -- THE CONCEPT AND VISION OF 6G MASSIVE IOT -- The Development Of Massive Iot Concepts -- 5G Massive IoT -- B5G/6G Massive IoT -- Main Features of 6G Massive IoT -- Typical Scenarios andamp -- Applications -- THE CHALLENGE AND POTENTIAL TECHNOLOGIES OF 6G VEHICULAR IOT -- Challenges for Vehicular IoT to be Addressed in 6G -- Coexistence and Cooperation of Diverse RATs For Optimized CV2X -- Convergence of Sensing, Computing, Communication, Caching, and Control -- Vehicular IoT Technical Verifications and Testing -- Promising Technologies of 6G IoT -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Cloud/edge Computing and Big Data System with 6G -- Peng Yu1,* and Lei Shi2 -- CLOUD COMPUTING WITH 6G -- The Development and Characteristics of Cloud Computing -- BASIC CONCEPTS OF CLOUD COMPUTING -- Private Cloud -- Community Cloud -- Public Cloud -- Hybrid Cloud -- NEW APPLICATION OF CLOUD COMPUTING IN 6G ERA -- SENSING AND POSITIONING IN 6G ERA WITH CLOUD -- THE PLACEMENT OF SLICE-SPECIFIC FUNCTION IN CLOUD -- THE CONTRIBUTION OF CLOUD COMPUTING FOR MOBILE COMMUNICATIONS IN 6G -- APPLICATION OF EDGE COMPUTING -- The Emergence of MEC -- The Advantages and Disadvantages of MEC -- The Advantages of MEC -- The Disadvantages of MEC -- Edge Computing in 6G Era -- Concept and Vision of 6G. |
| ctrlnum | (OCoLC)1257084513 |
| dewey-full | 621.384 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.384 |
| dewey-search | 621.384 |
| dewey-sort | 3621.384 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Electronic eBook |
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Kleyn1, Wei Luo2,* and Bo Yin2 -- INTRODUCTION -- CHARACTERISTIC AND APPLICATION OF MILLIMETER WAVE -- Characteristic of Millimeter Wave -- Usable Frequency Bandwidth and Large Information Capacity -- Short Wavelength in Millimeter Wave Band -- Significant Impact of the Atmosphere on Millimeter Wave Transmission -- Application of Millimeter Wave -- Millimeter Wave Communication System.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Millimeter Wave Weapon -- Millimeter Wave Imaging Technology -- Millimeter Wave Radar -- MILLIMETER WAVE TECHNOLOGY IN MOBILE COMMUNICATION -- Millimeter Wave Propagation Model and Channel Model -- Large-scale Loss Propagation Model -- Small-scale Propagation Model -- Millimeter Wave Channel Model -- MiWEBA Channel Model -- METIS Channel Model -- New York University Channel Model -- mmMAGIC Channel Model -- 5GCM Channel Model -- 3GPP High Frequency Channel Model -- Shortage of Existing Millimeter Wave Channel and Its Future Development Trend -- The Waveform of Millimeter Wave in Mobile Communication -- Performance of Candidate Waves in High Frequency Band of Mobile Communication -- The Influence of RF Link on Millimeter Wave Waveform Signal -- Massive MIMO for Millimeter Wave Communication -- Basic Architecture of Millimeter Wave Massive MIMO -- Current Research Direction -- Hybrid Beamforming in MIMO -- Millimeter Wave Network Backhaul Technology in Mobile Communication -- Millimeter Wave Backhaul Network Architecture -- Millimeter Wave Network Backhaul Technology -- 5G NR Technology -- Self-Backhaul Technology -- Small Base Station Backhaul Technology -- Key Technologies for mmWave Network Backhaul -- Effective Spatial Reuse -- Efficient Path Establishment -- Reasonable Resource Allocation -- Convenient Access Network Cache -- Millimeter Wave Network Technology in Mobile Communications -- Ultra-Dense Network -- Key Technology of Network -- Virtual Layer Technology -- Multi-Connection Technology -- Anti-Interference Management -- Wireless Return Method -- Problems Faced by Network -- System Interference -- System Cost and Energy Consumption -- Low-Power Base Station -- UDN Deployment Plan -- Deployment Plan -- Deployment Architecture -- MAIN COMPONENTS OF MILLIMETER WAVE COMMUNICATION -- Filter -- ADC/DAC -- Oscillator -- Power Amplifier -- SUMMARY.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Antenna Evolution for Massive MIMO -- Min Wang1,* and Brian D. Gerardot2 -- INTRODUCTION -- OVERVIEW OF ANTENNA IN WIRELESS COMMUNICATION -- Evolution of Base Station Antenna -- Wide Band Antenna -- Miniaturization Technology for Base Station Antenna -- Active Base Station Antenna System -- Multiple Beam Antenna System -- Development of User Equipment Antenna -- Electromagnetic Decoupling of Antenna Elements -- Design of Integrated Antenna -- Requirements of Communication Technology on Antenna Technology -- Development Trends of Massive MIMO Antenna for 6G -- Massive MIMO for 6G -- Principle of Massive MIMO -- Fundamental Theory of Massive MIMO -- RIS-Aided Wireless Communications -- A. Capacity Rate Enhancement -- B. Power Optimizations -- C. Channel Estimation -- D. Deep Learning-Based Design -- E. Secure Communications -- F. Terminal-positioning and Other Novel Applications -- MASSIVE MIMO ANTENNA FOR MOBILE COMMUNICATIONS -- Massive MIMO Antenna Array Design and Synthesis -- Massive MIMO Antenna Decoupling Technology -- Large-Scale Antenna Beamforming Technology -- Null-notch Beamforming Algorithm Based on LMS Criterion -- DESIGN OF FEED NETWORK AND RF FRONT-END -- Feeding Technology of Base Station Antenna -- Design of RF Front-End for Large-Scale Active Antenna -- ANTENNA SELECTION TECHNOLOGY -- Antenna Selection Criteria and Classification -- Optimal Antenna Selection Algorithm -- Incremental Antenna Selection Algorithm -- Decreasing Antenna Selection Algorithm -- MEASUREMENT TECHNOLOGY OF MASSIVE MIMO ANTENNA -- OTA Testing Requirements for Massive MIMO Antenna -- Near-Field and Far-Field Measurement -- Far-Field Test -- Near-Field Test: -- OTA Testing Process -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Terahertz Technology Applied in Mobile Communications -- Anthony J. Vickers1 and Jia Ran2,* -- INTRODUCTION -- TERAHERTZ TECHNOLOGIES -- Terahertz Wave -- Terahertz Devices -- Terahertz Sources -- Terahertz Modulators -- Terahertz Amplitude Modulator -- Terahertz Phase Modulator -- Terahertz Antennas -- Terahertz Detectors -- Applications -- Imaging -- Spectral Analysis -- Communications -- Difference with Other Communications -- TERAHERTZ WIRELESS COMMUNICATIONS -- Terahertz Wireless Communication Systems -- Solid State System -- Direct Modulation System -- Key technologies in Terahertz Communications -- Transceiver -- Pure Electronic Devices -- Optical Heterodyne Method -- Semiconductor Laser -- Detector -- Direct Detection Terahertz Receiver -- Superheterodyne Detection Receiver -- Beamforming and Beam Tracking -- Path Loss, Noise, Capacity -- Transmission Loss and Noise -- Reflection Loss -- Scattering Loss -- Channel Cavity -- Terahertz Channel Model -- Outdoor Channel Model -- Indoor Channel Model -- Ray Tracing -- Terahertz Wireless Mobile Communications -- WPAN and WLAN -- VR -- Directional Networks -- Secure Communications -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Intelligent Network Slicing Management and Control for 6G Mobile Networks -- Fanqin Zhou1,* and Mohamed Cheriet2 -- INTRODUCTION -- NETWORK SLICING AND ITS NEW REQUIREMENTS FOR 6G -- The Concept of Network Slicing -- Network Slicing Management in 5G -- Requirements of 6G Network Slicing -- Flexibility and Scalability in the Slicing Management Architecture -- Efficient Resource Allocation and Orchestration -- Adaptive Service Function Chaining and Recursion -- SON-DRIVEN NETWORK SLICING FOR 6G NETWORKS -- SON-driven Network Slicing Management Architecture -- Management Process in SON-driven NSMA.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Prediction-based Robust Dynamic Slicing -- 1) Scaling -- 2) Remapping -- 3) Appending -- CASE STUDY AND NUMERICAL EVALUATIONS -- Case Study -- Numerical Results -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Applications and Implementations of 6G Internet of Things -- Tao Hong1,* and Fei Qi2 -- INTRODUCTION -- Internet of Things -- THE IMPACT OF IOT APPLICATION REQUIREMENTS ON 6G -- NEW FEATURES OF VEHICULAR IOT APPLICATIONS -- VEHICULAR IOT DEMANDS MORE THAN 5G -- THE CONCEPT AND VISION OF 6G MASSIVE IOT -- The Development Of Massive Iot Concepts -- 5G Massive IoT -- B5G/6G Massive IoT -- Main Features of 6G Massive IoT -- Typical Scenarios andamp -- Applications -- THE CHALLENGE AND POTENTIAL TECHNOLOGIES OF 6G VEHICULAR IOT -- Challenges for Vehicular IoT to be Addressed in 6G -- Coexistence and Cooperation of Diverse RATs For Optimized CV2X -- Convergence of Sensing, Computing, Communication, Caching, and Control -- Vehicular IoT Technical Verifications and Testing -- Promising Technologies of 6G IoT -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Cloud/edge Computing and Big Data System with 6G -- Peng Yu1,* and Lei Shi2 -- CLOUD COMPUTING WITH 6G -- The Development and Characteristics of Cloud Computing -- BASIC CONCEPTS OF CLOUD COMPUTING -- Private Cloud -- Community Cloud -- Public Cloud -- Hybrid Cloud -- NEW APPLICATION OF CLOUD COMPUTING IN 6G ERA -- SENSING AND POSITIONING IN 6G ERA WITH CLOUD -- THE PLACEMENT OF SLICE-SPECIFIC FUNCTION IN CLOUD -- THE CONTRIBUTION OF CLOUD COMPUTING FOR MOBILE COMMUNICATIONS IN 6G -- APPLICATION OF EDGE COMPUTING -- The Emergence of MEC -- The Advantages and Disadvantages of MEC -- The Advantages of MEC -- The Disadvantages of MEC -- Edge Computing in 6G Era -- Concept and Vision of 6G.</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Wireless communication systems.</subfield><subfield code="0">http://id.loc.gov/authorities/subjects/sh92006740</subfield></datafield><datafield tag="650" ind1=" " 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| id | ZDB-4-EBA-on1257084513 |
| illustrated | Not Illustrated |
| indexdate | 2024-11-27T13:30:19Z |
| institution | BVB |
| isbn | 1681087960 9781681087962 |
| language | English |
| oclc_num | 1257084513 |
| open_access_boolean | |
| owner | MAIN DE-863 DE-BY-FWS |
| owner_facet | MAIN DE-863 DE-BY-FWS |
| physical | 1 online resource (268 p.) |
| psigel | ZDB-4-EBA |
| publishDate | 2021 |
| publishDateSearch | 2021 |
| publishDateSort | 2021 |
| publisher | Bentham Science Publishers, |
| record_format | marc |
| spelling | 6G Wireless Communications and Mobile Networking [electronic resource]. Sharjah : Bentham Science Publishers, 2021. 1 online resource (268 p.) Description based upon print version of record. Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Explaining 6G Spectrum THz, mmWave, Sub 6, and Low-Band -- Xianzhong Xie1,*, Bo Rong2 and Michel Kadoch3 -- THE SIXTH GENERATION MOBILE COMMUNICATION (6G) -- THE INEVITABILITY OF 6G RESEARCH -- The 10-year Cycled Rule -- "Catfish Effect" -- The Explosive Potential of IoT Business Models -- The 5G Performance Would Limit New IoT Applications -- INTERNATIONAL ORGANIZATION FOR STANDARDIZATION -- International Telecommunication Union (ITU) -- The Third Generation Partnership Project (3GPP) -- Institute of Electrical and Electronics Engineers (IEEE) -- 6G RESEARCH PROGRESS IN SOME COUNTRIES/REGIONS -- European Union -- United States -- Japan -- South Korea -- China -- 6G SPECTRUM COMPOSITION -- Spectrum Requirements for 6G -- SUB-6 -- The Low Frequency Spectrum -- Added Spectrum of 6 GHz -- Capacity and Coverage -- The Spectrum Allocation of Sub-6 -- Spectrum for 5G NR -- Spectrum Selection of Systems -- mmWAVE -- 6G mmWave Communication -- Advantages of mmWave -- Unlicensed mmWave Bands -- Spectrum Options for 6G -- Terahertz (THz) -- 6G Terahertz Communication -- Terahertz Spectrum -- Advantages of Terahertz -- Challenges in the Terahertz Bands -- Related Technology for Terahertz Communication -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Millimeter Wave Communication Technology -- Aart W. Kleyn1, Wei Luo2,* and Bo Yin2 -- INTRODUCTION -- CHARACTERISTIC AND APPLICATION OF MILLIMETER WAVE -- Characteristic of Millimeter Wave -- Usable Frequency Bandwidth and Large Information Capacity -- Short Wavelength in Millimeter Wave Band -- Significant Impact of the Atmosphere on Millimeter Wave Transmission -- Application of Millimeter Wave -- Millimeter Wave Communication System. Millimeter Wave Weapon -- Millimeter Wave Imaging Technology -- Millimeter Wave Radar -- MILLIMETER WAVE TECHNOLOGY IN MOBILE COMMUNICATION -- Millimeter Wave Propagation Model and Channel Model -- Large-scale Loss Propagation Model -- Small-scale Propagation Model -- Millimeter Wave Channel Model -- MiWEBA Channel Model -- METIS Channel Model -- New York University Channel Model -- mmMAGIC Channel Model -- 5GCM Channel Model -- 3GPP High Frequency Channel Model -- Shortage of Existing Millimeter Wave Channel and Its Future Development Trend -- The Waveform of Millimeter Wave in Mobile Communication -- Performance of Candidate Waves in High Frequency Band of Mobile Communication -- The Influence of RF Link on Millimeter Wave Waveform Signal -- Massive MIMO for Millimeter Wave Communication -- Basic Architecture of Millimeter Wave Massive MIMO -- Current Research Direction -- Hybrid Beamforming in MIMO -- Millimeter Wave Network Backhaul Technology in Mobile Communication -- Millimeter Wave Backhaul Network Architecture -- Millimeter Wave Network Backhaul Technology -- 5G NR Technology -- Self-Backhaul Technology -- Small Base Station Backhaul Technology -- Key Technologies for mmWave Network Backhaul -- Effective Spatial Reuse -- Efficient Path Establishment -- Reasonable Resource Allocation -- Convenient Access Network Cache -- Millimeter Wave Network Technology in Mobile Communications -- Ultra-Dense Network -- Key Technology of Network -- Virtual Layer Technology -- Multi-Connection Technology -- Anti-Interference Management -- Wireless Return Method -- Problems Faced by Network -- System Interference -- System Cost and Energy Consumption -- Low-Power Base Station -- UDN Deployment Plan -- Deployment Plan -- Deployment Architecture -- MAIN COMPONENTS OF MILLIMETER WAVE COMMUNICATION -- Filter -- ADC/DAC -- Oscillator -- Power Amplifier -- SUMMARY. CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Antenna Evolution for Massive MIMO -- Min Wang1,* and Brian D. Gerardot2 -- INTRODUCTION -- OVERVIEW OF ANTENNA IN WIRELESS COMMUNICATION -- Evolution of Base Station Antenna -- Wide Band Antenna -- Miniaturization Technology for Base Station Antenna -- Active Base Station Antenna System -- Multiple Beam Antenna System -- Development of User Equipment Antenna -- Electromagnetic Decoupling of Antenna Elements -- Design of Integrated Antenna -- Requirements of Communication Technology on Antenna Technology -- Development Trends of Massive MIMO Antenna for 6G -- Massive MIMO for 6G -- Principle of Massive MIMO -- Fundamental Theory of Massive MIMO -- RIS-Aided Wireless Communications -- A. Capacity Rate Enhancement -- B. Power Optimizations -- C. Channel Estimation -- D. Deep Learning-Based Design -- E. Secure Communications -- F. Terminal-positioning and Other Novel Applications -- MASSIVE MIMO ANTENNA FOR MOBILE COMMUNICATIONS -- Massive MIMO Antenna Array Design and Synthesis -- Massive MIMO Antenna Decoupling Technology -- Large-Scale Antenna Beamforming Technology -- Null-notch Beamforming Algorithm Based on LMS Criterion -- DESIGN OF FEED NETWORK AND RF FRONT-END -- Feeding Technology of Base Station Antenna -- Design of RF Front-End for Large-Scale Active Antenna -- ANTENNA SELECTION TECHNOLOGY -- Antenna Selection Criteria and Classification -- Optimal Antenna Selection Algorithm -- Incremental Antenna Selection Algorithm -- Decreasing Antenna Selection Algorithm -- MEASUREMENT TECHNOLOGY OF MASSIVE MIMO ANTENNA -- OTA Testing Requirements for Massive MIMO Antenna -- Near-Field and Far-Field Measurement -- Far-Field Test -- Near-Field Test: -- OTA Testing Process -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES. Terahertz Technology Applied in Mobile Communications -- Anthony J. Vickers1 and Jia Ran2,* -- INTRODUCTION -- TERAHERTZ TECHNOLOGIES -- Terahertz Wave -- Terahertz Devices -- Terahertz Sources -- Terahertz Modulators -- Terahertz Amplitude Modulator -- Terahertz Phase Modulator -- Terahertz Antennas -- Terahertz Detectors -- Applications -- Imaging -- Spectral Analysis -- Communications -- Difference with Other Communications -- TERAHERTZ WIRELESS COMMUNICATIONS -- Terahertz Wireless Communication Systems -- Solid State System -- Direct Modulation System -- Key technologies in Terahertz Communications -- Transceiver -- Pure Electronic Devices -- Optical Heterodyne Method -- Semiconductor Laser -- Detector -- Direct Detection Terahertz Receiver -- Superheterodyne Detection Receiver -- Beamforming and Beam Tracking -- Path Loss, Noise, Capacity -- Transmission Loss and Noise -- Reflection Loss -- Scattering Loss -- Channel Cavity -- Terahertz Channel Model -- Outdoor Channel Model -- Indoor Channel Model -- Ray Tracing -- Terahertz Wireless Mobile Communications -- WPAN and WLAN -- VR -- Directional Networks -- Secure Communications -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Intelligent Network Slicing Management and Control for 6G Mobile Networks -- Fanqin Zhou1,* and Mohamed Cheriet2 -- INTRODUCTION -- NETWORK SLICING AND ITS NEW REQUIREMENTS FOR 6G -- The Concept of Network Slicing -- Network Slicing Management in 5G -- Requirements of 6G Network Slicing -- Flexibility and Scalability in the Slicing Management Architecture -- Efficient Resource Allocation and Orchestration -- Adaptive Service Function Chaining and Recursion -- SON-DRIVEN NETWORK SLICING FOR 6G NETWORKS -- SON-driven Network Slicing Management Architecture -- Management Process in SON-driven NSMA. Prediction-based Robust Dynamic Slicing -- 1) Scaling -- 2) Remapping -- 3) Appending -- CASE STUDY AND NUMERICAL EVALUATIONS -- Case Study -- Numerical Results -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Applications and Implementations of 6G Internet of Things -- Tao Hong1,* and Fei Qi2 -- INTRODUCTION -- Internet of Things -- THE IMPACT OF IOT APPLICATION REQUIREMENTS ON 6G -- NEW FEATURES OF VEHICULAR IOT APPLICATIONS -- VEHICULAR IOT DEMANDS MORE THAN 5G -- THE CONCEPT AND VISION OF 6G MASSIVE IOT -- The Development Of Massive Iot Concepts -- 5G Massive IoT -- B5G/6G Massive IoT -- Main Features of 6G Massive IoT -- Typical Scenarios andamp -- Applications -- THE CHALLENGE AND POTENTIAL TECHNOLOGIES OF 6G VEHICULAR IOT -- Challenges for Vehicular IoT to be Addressed in 6G -- Coexistence and Cooperation of Diverse RATs For Optimized CV2X -- Convergence of Sensing, Computing, Communication, Caching, and Control -- Vehicular IoT Technical Verifications and Testing -- Promising Technologies of 6G IoT -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Cloud/edge Computing and Big Data System with 6G -- Peng Yu1,* and Lei Shi2 -- CLOUD COMPUTING WITH 6G -- The Development and Characteristics of Cloud Computing -- BASIC CONCEPTS OF CLOUD COMPUTING -- Private Cloud -- Community Cloud -- Public Cloud -- Hybrid Cloud -- NEW APPLICATION OF CLOUD COMPUTING IN 6G ERA -- SENSING AND POSITIONING IN 6G ERA WITH CLOUD -- THE PLACEMENT OF SLICE-SPECIFIC FUNCTION IN CLOUD -- THE CONTRIBUTION OF CLOUD COMPUTING FOR MOBILE COMMUNICATIONS IN 6G -- APPLICATION OF EDGE COMPUTING -- The Emergence of MEC -- The Advantages and Disadvantages of MEC -- The Advantages of MEC -- The Disadvantages of MEC -- Edge Computing in 6G Era -- Concept and Vision of 6G. Wireless communication systems. http://id.loc.gov/authorities/subjects/sh92006740 Mobile communication systems. http://id.loc.gov/authorities/subjects/sh85086371 Transmission sans fil. Radiocommunications mobiles. Mobile communication systems fast Wireless communication systems fast Xie, Xianzhong. Rong, Bo. Kadoch, Michel, 1944- https://id.oclc.org/worldcat/entity/E39PCjBmpXqhPyf8tGHwVjPw3P http://id.loc.gov/authorities/names/n2012033810 has work: 6G Wireless Communications and Mobile Networking (Text) https://id.oclc.org/worldcat/entity/E39PCGDj49PhPpWH6MFV4q8bJP https://id.oclc.org/worldcat/ontology/hasWork Print version: Xie, Xianzhong 6G Wireless Communications and Mobile Networking Sharjah : Bentham Science Publishers,c2021 9781681087979 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2948427 Volltext |
| spellingShingle | 6G Wireless Communications and Mobile Networking Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- List of Contributors -- Explaining 6G Spectrum THz, mmWave, Sub 6, and Low-Band -- Xianzhong Xie1,*, Bo Rong2 and Michel Kadoch3 -- THE SIXTH GENERATION MOBILE COMMUNICATION (6G) -- THE INEVITABILITY OF 6G RESEARCH -- The 10-year Cycled Rule -- "Catfish Effect" -- The Explosive Potential of IoT Business Models -- The 5G Performance Would Limit New IoT Applications -- INTERNATIONAL ORGANIZATION FOR STANDARDIZATION -- International Telecommunication Union (ITU) -- The Third Generation Partnership Project (3GPP) -- Institute of Electrical and Electronics Engineers (IEEE) -- 6G RESEARCH PROGRESS IN SOME COUNTRIES/REGIONS -- European Union -- United States -- Japan -- South Korea -- China -- 6G SPECTRUM COMPOSITION -- Spectrum Requirements for 6G -- SUB-6 -- The Low Frequency Spectrum -- Added Spectrum of 6 GHz -- Capacity and Coverage -- The Spectrum Allocation of Sub-6 -- Spectrum for 5G NR -- Spectrum Selection of Systems -- mmWAVE -- 6G mmWave Communication -- Advantages of mmWave -- Unlicensed mmWave Bands -- Spectrum Options for 6G -- Terahertz (THz) -- 6G Terahertz Communication -- Terahertz Spectrum -- Advantages of Terahertz -- Challenges in the Terahertz Bands -- Related Technology for Terahertz Communication -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Millimeter Wave Communication Technology -- Aart W. Kleyn1, Wei Luo2,* and Bo Yin2 -- INTRODUCTION -- CHARACTERISTIC AND APPLICATION OF MILLIMETER WAVE -- Characteristic of Millimeter Wave -- Usable Frequency Bandwidth and Large Information Capacity -- Short Wavelength in Millimeter Wave Band -- Significant Impact of the Atmosphere on Millimeter Wave Transmission -- Application of Millimeter Wave -- Millimeter Wave Communication System. Millimeter Wave Weapon -- Millimeter Wave Imaging Technology -- Millimeter Wave Radar -- MILLIMETER WAVE TECHNOLOGY IN MOBILE COMMUNICATION -- Millimeter Wave Propagation Model and Channel Model -- Large-scale Loss Propagation Model -- Small-scale Propagation Model -- Millimeter Wave Channel Model -- MiWEBA Channel Model -- METIS Channel Model -- New York University Channel Model -- mmMAGIC Channel Model -- 5GCM Channel Model -- 3GPP High Frequency Channel Model -- Shortage of Existing Millimeter Wave Channel and Its Future Development Trend -- The Waveform of Millimeter Wave in Mobile Communication -- Performance of Candidate Waves in High Frequency Band of Mobile Communication -- The Influence of RF Link on Millimeter Wave Waveform Signal -- Massive MIMO for Millimeter Wave Communication -- Basic Architecture of Millimeter Wave Massive MIMO -- Current Research Direction -- Hybrid Beamforming in MIMO -- Millimeter Wave Network Backhaul Technology in Mobile Communication -- Millimeter Wave Backhaul Network Architecture -- Millimeter Wave Network Backhaul Technology -- 5G NR Technology -- Self-Backhaul Technology -- Small Base Station Backhaul Technology -- Key Technologies for mmWave Network Backhaul -- Effective Spatial Reuse -- Efficient Path Establishment -- Reasonable Resource Allocation -- Convenient Access Network Cache -- Millimeter Wave Network Technology in Mobile Communications -- Ultra-Dense Network -- Key Technology of Network -- Virtual Layer Technology -- Multi-Connection Technology -- Anti-Interference Management -- Wireless Return Method -- Problems Faced by Network -- System Interference -- System Cost and Energy Consumption -- Low-Power Base Station -- UDN Deployment Plan -- Deployment Plan -- Deployment Architecture -- MAIN COMPONENTS OF MILLIMETER WAVE COMMUNICATION -- Filter -- ADC/DAC -- Oscillator -- Power Amplifier -- SUMMARY. CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Antenna Evolution for Massive MIMO -- Min Wang1,* and Brian D. Gerardot2 -- INTRODUCTION -- OVERVIEW OF ANTENNA IN WIRELESS COMMUNICATION -- Evolution of Base Station Antenna -- Wide Band Antenna -- Miniaturization Technology for Base Station Antenna -- Active Base Station Antenna System -- Multiple Beam Antenna System -- Development of User Equipment Antenna -- Electromagnetic Decoupling of Antenna Elements -- Design of Integrated Antenna -- Requirements of Communication Technology on Antenna Technology -- Development Trends of Massive MIMO Antenna for 6G -- Massive MIMO for 6G -- Principle of Massive MIMO -- Fundamental Theory of Massive MIMO -- RIS-Aided Wireless Communications -- A. Capacity Rate Enhancement -- B. Power Optimizations -- C. Channel Estimation -- D. Deep Learning-Based Design -- E. Secure Communications -- F. Terminal-positioning and Other Novel Applications -- MASSIVE MIMO ANTENNA FOR MOBILE COMMUNICATIONS -- Massive MIMO Antenna Array Design and Synthesis -- Massive MIMO Antenna Decoupling Technology -- Large-Scale Antenna Beamforming Technology -- Null-notch Beamforming Algorithm Based on LMS Criterion -- DESIGN OF FEED NETWORK AND RF FRONT-END -- Feeding Technology of Base Station Antenna -- Design of RF Front-End for Large-Scale Active Antenna -- ANTENNA SELECTION TECHNOLOGY -- Antenna Selection Criteria and Classification -- Optimal Antenna Selection Algorithm -- Incremental Antenna Selection Algorithm -- Decreasing Antenna Selection Algorithm -- MEASUREMENT TECHNOLOGY OF MASSIVE MIMO ANTENNA -- OTA Testing Requirements for Massive MIMO Antenna -- Near-Field and Far-Field Measurement -- Far-Field Test -- Near-Field Test: -- OTA Testing Process -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES. Terahertz Technology Applied in Mobile Communications -- Anthony J. Vickers1 and Jia Ran2,* -- INTRODUCTION -- TERAHERTZ TECHNOLOGIES -- Terahertz Wave -- Terahertz Devices -- Terahertz Sources -- Terahertz Modulators -- Terahertz Amplitude Modulator -- Terahertz Phase Modulator -- Terahertz Antennas -- Terahertz Detectors -- Applications -- Imaging -- Spectral Analysis -- Communications -- Difference with Other Communications -- TERAHERTZ WIRELESS COMMUNICATIONS -- Terahertz Wireless Communication Systems -- Solid State System -- Direct Modulation System -- Key technologies in Terahertz Communications -- Transceiver -- Pure Electronic Devices -- Optical Heterodyne Method -- Semiconductor Laser -- Detector -- Direct Detection Terahertz Receiver -- Superheterodyne Detection Receiver -- Beamforming and Beam Tracking -- Path Loss, Noise, Capacity -- Transmission Loss and Noise -- Reflection Loss -- Scattering Loss -- Channel Cavity -- Terahertz Channel Model -- Outdoor Channel Model -- Indoor Channel Model -- Ray Tracing -- Terahertz Wireless Mobile Communications -- WPAN and WLAN -- VR -- Directional Networks -- Secure Communications -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Intelligent Network Slicing Management and Control for 6G Mobile Networks -- Fanqin Zhou1,* and Mohamed Cheriet2 -- INTRODUCTION -- NETWORK SLICING AND ITS NEW REQUIREMENTS FOR 6G -- The Concept of Network Slicing -- Network Slicing Management in 5G -- Requirements of 6G Network Slicing -- Flexibility and Scalability in the Slicing Management Architecture -- Efficient Resource Allocation and Orchestration -- Adaptive Service Function Chaining and Recursion -- SON-DRIVEN NETWORK SLICING FOR 6G NETWORKS -- SON-driven Network Slicing Management Architecture -- Management Process in SON-driven NSMA. Prediction-based Robust Dynamic Slicing -- 1) Scaling -- 2) Remapping -- 3) Appending -- CASE STUDY AND NUMERICAL EVALUATIONS -- Case Study -- Numerical Results -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Applications and Implementations of 6G Internet of Things -- Tao Hong1,* and Fei Qi2 -- INTRODUCTION -- Internet of Things -- THE IMPACT OF IOT APPLICATION REQUIREMENTS ON 6G -- NEW FEATURES OF VEHICULAR IOT APPLICATIONS -- VEHICULAR IOT DEMANDS MORE THAN 5G -- THE CONCEPT AND VISION OF 6G MASSIVE IOT -- The Development Of Massive Iot Concepts -- 5G Massive IoT -- B5G/6G Massive IoT -- Main Features of 6G Massive IoT -- Typical Scenarios andamp -- Applications -- THE CHALLENGE AND POTENTIAL TECHNOLOGIES OF 6G VEHICULAR IOT -- Challenges for Vehicular IoT to be Addressed in 6G -- Coexistence and Cooperation of Diverse RATs For Optimized CV2X -- Convergence of Sensing, Computing, Communication, Caching, and Control -- Vehicular IoT Technical Verifications and Testing -- Promising Technologies of 6G IoT -- SUMMARY -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Cloud/edge Computing and Big Data System with 6G -- Peng Yu1,* and Lei Shi2 -- CLOUD COMPUTING WITH 6G -- The Development and Characteristics of Cloud Computing -- BASIC CONCEPTS OF CLOUD COMPUTING -- Private Cloud -- Community Cloud -- Public Cloud -- Hybrid Cloud -- NEW APPLICATION OF CLOUD COMPUTING IN 6G ERA -- SENSING AND POSITIONING IN 6G ERA WITH CLOUD -- THE PLACEMENT OF SLICE-SPECIFIC FUNCTION IN CLOUD -- THE CONTRIBUTION OF CLOUD COMPUTING FOR MOBILE COMMUNICATIONS IN 6G -- APPLICATION OF EDGE COMPUTING -- The Emergence of MEC -- The Advantages and Disadvantages of MEC -- The Advantages of MEC -- The Disadvantages of MEC -- Edge Computing in 6G Era -- Concept and Vision of 6G. Wireless communication systems. http://id.loc.gov/authorities/subjects/sh92006740 Mobile communication systems. http://id.loc.gov/authorities/subjects/sh85086371 Transmission sans fil. Radiocommunications mobiles. Mobile communication systems fast Wireless communication systems fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh92006740 http://id.loc.gov/authorities/subjects/sh85086371 |
| title | 6G Wireless Communications and Mobile Networking |
| title_auth | 6G Wireless Communications and Mobile Networking |
| title_exact_search | 6G Wireless Communications and Mobile Networking |
| title_full | 6G Wireless Communications and Mobile Networking [electronic resource]. |
| title_fullStr | 6G Wireless Communications and Mobile Networking [electronic resource]. |
| title_full_unstemmed | 6G Wireless Communications and Mobile Networking [electronic resource]. |
| title_short | 6G Wireless Communications and Mobile Networking |
| title_sort | 6g wireless communications and mobile networking |
| topic | Wireless communication systems. http://id.loc.gov/authorities/subjects/sh92006740 Mobile communication systems. http://id.loc.gov/authorities/subjects/sh85086371 Transmission sans fil. Radiocommunications mobiles. Mobile communication systems fast Wireless communication systems fast |
| topic_facet | Wireless communication systems. Mobile communication systems. Transmission sans fil. Radiocommunications mobiles. Mobile communication systems Wireless communication systems |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2948427 |
| work_keys_str_mv | AT xiexianzhong 6gwirelesscommunicationsandmobilenetworking AT rongbo 6gwirelesscommunicationsandmobilenetworking AT kadochmichel 6gwirelesscommunicationsandmobilenetworking |