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Book Description

A comprehensive text to an understanding the next generation mobile broadband and wireless Internet of Things (IoT) technologies

5G Verticals brings together in one comprehensive volume a group of visionaries and technical experts from academia and industry. The expert authors discuss the applications and technologies that comprise 5G verticals. The earlier network generations (2G to 4G) were designed as on-size-fits-all, general-purpose connectivity platforms with limited differentiation capabilities. 5G networks have the capability to demand customizable mobile networks and create an ecosystem for technical and business innovation involving vertical markets such as automotive, healthcare, manufacturing, energy, food and agriculture, city management, government, public transportation, media and more.

5G will serve a large portfolio of applications with various requirements ranging from high reliability to ultra-low latency going through high bandwidth and mobility. In this book, the authors explore applications and usages of various 5G verticals including a set of key metrics for these uses and their corresponding target requirements. The book also examines the potential network architectures and enabling technologies to meet the requirements of 5G verticals. This important book:

  • Offers a comprehensive resource to the promise of 5G Verticals
  • Provides a set of key metrics for the uses and target requirements
  • Contains illustrative examples of the technology and applications
  • Includes contributions from experts in the field and professionals that developed the 5G standards
  • Provides an analysis of specific vertical industries which have the potential to be among the first industries to use 5G

Written for industry practitioners, engineers and researchers, 5G Verticals discusses the technology that enables the 5G system to be flexibly deployed and scaled.

Table of Contents

  1. Cover
  2. List of Contributors
  3. Preface
  4. Acknowledgments
  5. Part I: Introduction to 5G Verticals
    1. 1 Introduction
      1. 1.1 Introduction
      2. 1.2 5G and the Vertical Industries
      3. 1.3 5G Requirements in Support of Vertical Industries
      4. 1.4 Radio Access
      5. 1.5 Network Slicing
      6. 1.6 Other Network Issues
      7. 1.7 Book Outline
      8. References
  6. Part II: 5G Verticals – Deployments and Business Model Opportunities and Challenges
    1. 2 5G Network for a Variety of Vertical Services
      1. 2.1 5G Services
      2. 2.2 Networks
      3. 2.3 Service‐Aware SON
      4. 2.4 Summary
      5. Acronyms
      6. References
  7. Part III: 5G Verticals – Radio Access Technologies
    1. 3 NR Radio Interface for 5G Verticals
      1. 3.1 Introduction
      2. 3.2 NR Radio Interface
      3. 3.3 5G Verticals
      4. 3.4 Conclusion
      5. Acknowledgment
      6. Acronyms
      7. References
    2. 4 Effects of Dynamic Blockage in Multi‐Connectivity Millimeter‐Wave Radio Access
      1. 4.1 Introduction
      2. 4.2 Blockage Effects in 5G Millimeter‐Wave Cellular Communication
      3. 4.3 Modeling Consumer 5G‐IoT Systems with Dynamic Blockage
      4. 4.4 Dynamic Multi‐Connectivity
      5. 4.5 Bandwidth Reservation
      6. 4.6 Proactive Handover Mechanisms
      7. 4.7 Conclusions
      8. References
    3. 5 Radio Resource Management Techniques for 5G Verticals
      1. 5.1 Introduction
      2. 5.2 5G Goals
      3. 5.3 Radio Access Network Management
      4. 5.4 Network Slicing
      5. 5.5 Use Case: Virtual Reality
      6. 5.6 Summary
      7. References
      8. Further Reading
  8. Part IV: 5G Verticals – Network Infrastructure Technologies
    1. 6 The Requirements and Architectural Advances to Support URLLC Verticals
      1. 6.1 Introduction
      2. 6.2 URLLC Verticals
      3. 6.3 Network Deployment Options for Verticals
      4. 6.4 SDN, NFV and 5G Core for URLLC
      5. 6.5 Application and Network Interfacing Via Network Slicing
      6. 6.6 Summary
      7. References
    2. 7 Edge Cloud
      1. 7.1 Introduction
      2. 7.2 Part I: 5G and the Edge Cloud
      3. 7.3 Part II: Software Defined Networking and Network Function Virtualization
      4. 7.4 Evolving Wireless Core, e.g. OMEC, Towards Cloud Native and 5G Service‐Based Architecture
      5. 7.5 Part III: Software‐Defined Disaggregated RAN
      6. 7.6 Part IV: White‐Box Solutions for Compute, Storage, Access, and Networking
      7. 7.7 Part V: Edge Cloud Deployment Options
      8. 7.8 Part VI: Edge Cloud and Network Slicing
      9. 7.9 Summary
      10. Acknowledgments
      11. References
  9. Part V: 5G Verticals – Key Vertical Applications
    1. 8 Connected Aerials
      1. 8.1 Introduction
      2. 8.2 General Requirements and Challenges for Supporting UAVs over a Cellular Network
      3. 8.3 Summary on Current Drone Regulations
      4. 8.4 Review of Aerial Communication R&D Activities in General
      5. 8.5 3GPP Enhancement on Supporting Drones
      6. 8.6 5G Challenges, Solutions, and Further Studies
      7. Acronyms
      8. References
    2. 9 Connected Automobiles
      1. 9.1 Introduction
      2. 9.2 Levels of Vehicle Automation
      3. 9.3 Multi‐Access Edge Computing in 5G
      4. 9.4 Platoon‐Based Driving Use Case
      5. 9.5 High Definition Maps Use Case
      6. 9.6 Summary
      7. Acknowledgment
      8. References
    3. 10 Connected Factory
      1. 10.1 Introduction
      2. 10.2 5G Technologies for the Manufacturing Industry
      3. 10.3 5G Alliance for Connected Industries and Automation
      4. 10.4 Use Cases
      5. 10.5 3GPP Support
      6. 10.6 Early Deployments
      7. 10.7 Conclusions
      8. Acronyms
      9. References
  10. Index
  11. End User License Agreement
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