دانلود کتاب 6G Wireless Communications and Mobile Networking

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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 & 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
Effect of 6G on MEC
MEC with Machine Learning
Overview of ML Model
The Value of MEC for AI Model
BIG DATA IN 6G
Overview of Big Data
Recent Technologies Related to Big Data
Internet of Things
Artificial Intelligence Powered by Big Data and 6G
Role and Applications of Big Data in 6G
The Role of Big Data in Promoting The Development of 6G
Big Data Applications in 6G Era
Tensor-Computing Based on Big Data
Context-Aware Communication
SUMMARY
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Subject Index
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