Rolling Out 5G : Use Cases, Applications, and Technology Solutions.

Intro -- Contents at a Glance -- Contents -- About the Authors -- About the Technical Reviewers -- Acknowledgments -- Foreword -- Chapter 1: Introduction to Mobile Wireless Systems -- Wireless Evolution: a Retrospective -- Wireless Generations in a Nutshell -- From Analog Voice to High Data Rate and Multiple Services in Parallel -- WiMAX and LTE, the Path Toward 4G -- Device Evolution: Handsets to Smartphones -- Social and Economic Aspects and Impacts -- Motivation for 4G Evolution -- Key 5G Enablers -- Standardization and Regulation Bodies and Their Activities -- References -- Chapter 2: The Evolution and Technology Adaptations of 4G -- The Growth of 4G -- Implementation Challenges -- Baseband -- Radio Frequency -- Network Infrastructure -- Evolution of the Network Architecture -- Scheduling -- Interference Mitigation -- Self-Organizing Networks -- Network Nodes -- Future Evolution -- Operational Challenges -- Interference Issues in 4G Networks -- Network-Based Interference Management -- Terminal-Based Interference Management -- Receiver Design under Resource Limitations -- Interference Mitigation Features in 4G -- Evolution of Inter-Cell Interference Mitigation Schemes in 4G Systems -- Network Assisted Interference Cancellation -- Performance Optimization and Productization -- Test Efforts -- Aspects Affecting End-to-End User Experience -- Link Adaptation -- Call Drops -- Throughput -- Field versus Lab Testing -- Neighbor Cell Measurements and Handovers -- Roll-out of New Features in Existing Networks -- References -- Chapter 3: Evolving from 4G to 5G -- Main Drivers for 5G -- Definition and Use Cases for 5G -- Research and Development Ventures -- Use Cases -- Requirements -- Evolving 4G Features to Support 5G Use Cases -- LTE Evolution (LTE-Advanced Pro) -- A Closer Comparison of 5G and 4G -- References -- Chapter 4: 5G Technologies.

5G Key Technologies -- Spectrum Management Vectors -- Radio Access -- Context-Aware Networking -- Millimeter Wave Technology -- Device-to-Device Communication -- Vehicle to X Communication -- Heterogeneous Networks Using Multiple Air Interfaces -- The Control Plane / User Plane Split -- Wireless Backhauling -- Networking and Virtualization Approaches -- Opportunistic/Moving Networks -- Open Source Software -- Flexible Duplex -- Internet of Things (IoT) and Machine-Type Communications -- References -- Chapter 5: Spectrum Sharing -- Motivation: Spectrum Scarcity and the Need for a New Spectrum Usage Paradigm -- Overview of Licensed Shared Access (LSA) and Spectrum Access System (SAS) Spectrum Sharing -- Key Use Cases -- System Architecture -- LSA and Relevant Incumbents -- System Design -- Standards and Regulation Framework -- Protection of Incumbents and Neighboring Licensees -- Intra-MNO-System Interference Mitigation through LSA -- Challenges and Next Steps for LSA -- SAS and Relevant Incumbents -- SAS Differences from LSA -- Standardization and System Design -- Protection of Incumbents and Neighboring Users -- Protection of Incumbents -- Protection of Neighboring Users -- Challenges and Next Steps for SAS -- Challenges and Next Steps for the Evolution of LSA and SAS -- References -- Chapter 6: The Disruptor: The Millimeter Wave Spectrum -- The Motivation for Millimeter Wave Usage -- The Spectrum Crunch -- The Capacity Challenge -- Standardization and Regulation Status -- IEEE 802.11ad and 802.11ay -- 3GPP -- ETSI ISG mWT -- FCC and CEPT -- ITU-R WP5A and WP5D -- Channel Models -- Enabling Technologies -- Antennas -- Radio-Frequency Front Ends -- Baseband and Protocols -- References -- Conclusion -- Index.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.