Radio Access Network Slicing and Virtualization for 5G Vertical Industries 1st Edition by Lei Zhang, Arman Farhang, Gang Feng, Oluwakayode Onireti 1119652472 9781119652472

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ISBN-10 :  1119652472

ISBN-13 :  9781119652472

Author:  Lei Zhang, Arman Farhang, Gang Feng, Oluwakayode Onireti  

Learn how radio access network (RAN) slicing allows 5G networks to adapt to a wide range of environments in this masterful resource Radio Access Network Slicing and Virtualization for 5G Vertical Industriesprovides readers with a comprehensive and authoritative examination of crucial topics in the field of radio access network (RAN) slicing. Learn from renowned experts as they detail how this technology supports and applies to various industrial sectors, including manufacturing, entertainment, public safety, public transport, healthcare, financial services, automotive, and energy utilities. Radio Access Network Slicing and Virtualization for 5G Vertical Industries explains how future wireless communication systems must be built to handle high degrees of heterogeneity, including different types of applications, device classes, physical environments, mobility levels, and carrier frequencies. The authors describe how RAN slicing can be utilized to adapt 5G technologies to such wide-ranging circumstances. The book covers a wide range of topics necessary to understand RAN slicing, including: Physical waveforms design Multiple service signals coexistence RAN slicing and virtualization Applications to 5G vertical industries in a variety of environments This book is perfect for telecom engineers and industry actors who wish to identify realistic and cost-effective concepts to support specific 5G verticals. It also belongs on the bookshelves of researchers, professors, doctoral, and postgraduate students who want to identify open issues and conduct further research.

Radio Access Network Slicing and Virtualization for 5G Vertical Industries 1st Table of contents:

Part I: Waveforms and Mixed‐Numerology
1 ICI Cancellation Techniques Based on Data Repetition for OFDM Systems
1.1 OFDM History
1.2 OFDM Principle
1.3 Carrier Frequency Offset Effect
1.4 ICI Cancellation Techniques
1.5 Experiment on Sea
1.6 Summary
References
Note
2 Filtered OFDM: An Insight into Intrinsic In‐Band Interference
2.1 Introduction
2.2 System Model for f‐OFDM SISO System
2.3 In‐Band Interference Analysis and Discussion
2.4 Numerical Results
2.5 Conclusion
2.A Appendix
2.B Appendix
2.C Appendix
References
Notes
3 Windowed OFDM for Mixed‐Numerology 5G and Beyond Systems
3.1 Introduction
3.2 W‐OFDM System Model
3.3 Inter‐numerology Interference Analysis
3.4 Numerical Results and Discussion
3.5 Conclusions
3.A Appendix
3.B Appendix
3.C Appendix
References
Note
4 Generalized Frequency Division Multiplexing: Unified Multicarrier Framework
4.1 Overview of Multicarrier Waveforms
4.2 GFDM As a Flexible Framework
4.3 GFDM for OFDM Enhancement
4.4 Conclusions
References
Notes
5 Filter Bank Multicarrier Modulation
5.1 Introduction
5.2 FBMC Methods
5.3 Theory
5.4 Prototype Filter Design
5.5 Synchronization and Tracking Methods
5.6 Equalization
5.7 Computational Complexity
5.8 Applications
References
6 Orthogonal Time–Frequency Space Modulation: Principles and Implementation
6.1 Introduction
6.2 OTFS Principles
6.3 OFDM‐Based OTFS
6.4 Channel Impact
6.5 Simplified Modem Structure
6.6 Complexity Analysis
6.7 Recent Results and Potential Research Directions
References
Part II: RAN Slicing and 5G Vertical Industries
7 Multi‐Numerology Waveform Parameter Assignment in 5G
7.1 Introduction
7.2 Waveform Parameter Options
7.3 Waveform Parameter Assignment
7.4 Conclusion
References
Note
8 Network Slicing with Spectrum Sharing
8.1 The Need for Spectrum Sharing
8.2 Historical Approaches to Spectrum Sharing
8.3 Network Slicing in the RAN
8.4 Radio Resource Allocation that Considers Spectrum Sharing
8.5 Isolation
8.6 Conclusions
Acknowledgments
References
Notes
9 Access Control and Handoff Policy Design for RAN Slicing
9.1 A Framework of User Access Control for RAN Slicing
9.2 Smart Handoff Policy Design for RAN Slicing
9.3 Summary
Bibliography
10 Robust RAN Slicing
10.1 Introduction
10.2 Network Model
10.3 Robust RAN Slicing
10.4 Numerical Results
10.5 Conclusions and Future Work
References
11 Flexible Function Split Over Ethernet Enabling RAN Slicing
11.1 Flexible Functional Split Toward RAN Slicing
11.2 Fronthaul Reliability and Slicing by Deploying Multipath at the Fronthaul
11.3 Experimentation Results Evaluation of Flexible Functional Split for RAN Slicing
11.4 Simulation Results Analysis of Multipath Packet‐Based Fronthaul for RAN Slicing
References
Note
12 Service‐Oriented RAN Support of Network Slicing
12.1 Introduction
12.2 General Concept and Principles
12.3 RAN Subsystem Deployment Scenarios
12.4 Key Technologies to Enable Service‐Oriented RAN Slicing
12.5 Summary
References
13 5G Network Slicing for V2X Communications: Technologies and Enablers
13.1 Introduction
13.2 Vehicular Applications
13.3 V2X Communication Technologies
13.4 Cloudification in V2X Environments
13.5 Transport and Tunneling Protocol for V2X
13.6 Network Slicing for V2X
13.7 Lessons Learnt and Guidelines
13.8 Conclusions
References
Notes
14 Optimizing Resource Allocation in URLLC for Real‐Time Wireless Control Systems
14.1 Introduction
14.2 System Model with Latency and Reliability Constraints
14.3 Communication‐Control Co‐Design
14.4 Optimal Resource Allocation for The Proposed Co‐Design
14.5 Simulations Results
14.6 Conclusions

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Tags: Radio Access, Virtualization, Vertical Industries, Lei Zhang, Arman Farhang, Gang Feng, Oluwakayode Onireti