Buch, Englisch, 256 Seiten
Analysis, Design, and Optimisation
Buch, Englisch, 256 Seiten
ISBN: 978-1-394-23294-9
Verlag: Wiley
An up-to-date examination of the latest technologies and research impacting 6G multimedia communications
In 6G Multimedia Communications: Analysis, Design, and Optimization, a team of distinguished researchers delivers a comprehensive new discussion of the theory, models, techniques, analysis, design, and optimization of multimedia communications in 6G networks. The authors explain the potential of multimedia communication systems using recent edge techniques, including caching, resource sharing, power allocation, multicasting, and D2D communications.
You'll find solutions to various real-world application- and service-level problems in industries like surveillance, entertainment, eHealth, eLearning, smart home and environment management, and public safety. - A thorough introduction to cross-layer optimization design for multimedia applications and services in content delivery networks
- Comprehensive explorations of social-aware resource sharing and caching for video transmission in ultra-dense networks
- Practical discussions of MEC technology, mobile applications, and smart city scenarios
- Complete treatment of future wireless content delivery network technology for multimedia communications
Perfect for working telecommunication professionals, 6G Multimedia Communications will also benefit researchers and graduate students with an interest in cutting-edge network technology.
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Weitere Infos & Material
Contents
Preface
Acronyms
1 AN OVERVIEW OF MULTIMEDIA COMMUNICATIONS
1.1 Advanced Applications and Services in 6G Networks
1.2 Multimedia Applications and Services in 6G Networks
1.3 Techniques for 6G Multimedia Communications
1.3.1 Edge computing assisted multimedia communications
1.3.2 Multicasting assisted multimedia communications
1.3.3 D2D multimedia communications
1.3.4 Caching assisted multimedia communications
1.4 Multimedia Communications in 6G Networks: Challenges and Research Directions
1.4.1 Challenges
1.4.2 Research directions
1.5 Conclusion
2 ENCODING RATE SELECTION AND PROBABILISTIC
CACHING FOR VIDEO OFFLOADING IN DENSE D2D NETWORKS
2.1 Introduction
2.2 RSC System for Video Offloading
2.2.1 RSC components
2.2.2 Preliminary RSC models
2.2.2.1 Video popularity model
2.2.2.2 Rate-distortion model
2.2.2.3 Homogeneous Poisson Point Process model
2.2.3 RSC operation description
2.3 Analysis and Formulation of RSC Model for Video Offloading
2.3.1 Hit probabilities
2.3.2 Achievable rate probability
2.3.3 Average playback quality and resource consumption 36
2.4 RSC Optimisation Design
2.4.1 RSC optimisation problem
2.4.2 RSC optimisation solution with genetic algorithms
2.5 Performance Evaluation of RSC
2.5.1 System setting
2.5.2 GA convergence evaluation
2.5.3 RSC evaluation
2.6 Conclusion
3 SPECTRUM SHARING AND POWER ALLOCATION FOR VIDEO TRANSMISSION IN MULTIHOP MULTI-PATH D2D NETWORKS
3.1 Introduction
3.2 SPA Model for Video Transmission in MHMP D2D Networks
3.3 Analysis and Formulations of SPA Model
3.3.1 MHMP D2D capacity
3.3.2 Normal cellular capacity
3.3.3 Average delivery capacity at RU
3.3.4 SINR at SH
3.4 SPA Optimisation Design
3.4.1 SPA optimisation problem
3.4.2 SPA optimisation with GA
3.5 Performance Evaluation of SPA
3.5.1 Parameter setting
3.5.2 GA convergence evaluation
3.5.3 SPA evaluation
3.5.3.1 Capacity performance
3.5.3.2 Power consumption performance
3.6 Conclusion
4 SOCIAL-AWARE SPECTRUM SHARING AND CACHING HELPER SELECTION FOR VIDEO MULTICASTING IN D2D NETWORKS
4.1 Introduction
4.2 System Model for Video Multicasting in D2D Networks with SSC
4.3 Analysis and Formulations of SSC.
4.3.1 Social relationship
4.3.2 Wireless channels
4.3.3 Capacity at RUs.
4.3.4 Capacity fluctuation amongst RUs
4.3.5 SINR at SHs
4.4 SSC Optimisation Design
4.4.1 SSC optimisation problem
4.4.2 SSC optimisation solution with GA
4.5 Performance Evaluation of SSC
4.5.1 System setting
4.5.2 GA convergence evaluation
4.5.3 SSC evaluation
4.6 Conclusion
5 RESOURCE SHARING ANDMULTI-TIER MULTI-RATE CACHING FOR COOPERATIVE VIDEO STREAMING IN ULTRA-DENSE NETWORKS
5.1 Introduction
5.2 RMC Model for Cooperative Video Streaming
5.3 Analysis and Formulation of RMC Model
5.3.1 Preliminary analysis and formulation
5.3.1.1 Achievable rate probability at SHs
5.3.1.2 Achievable rate probability at VHs
5.3.1.3 Achievable rate probability at RUs
5.3.2 Objective function
5.3.3 Resource consumption
5.4 RMC Optimisation Design
5.5 Performance Evaluation of RMC
5.6 Conclusion
6 SOCIAL-AWARE RESOURCE SHARING AND CACHING FOR COOPERATIVE VIDEO TRANSMISSION IN ULTRADENSE NETWORKS
6.1 Introduction
6.2 SRC Model for Cooperative Video Transmission
6.3 Formulation of SRC Model
6.3.1 Social relationship of D2D pairs
6.3.2 Wireless channels
6.3.3 System delivery capacity
6.3.3.1 Capacity delivered to SHs
6.3.3.2 Capacity delivered to VHs
6.3.3.3 Capacity delivered
