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LTE optimization engineering handbook / Xincheng Zhang, China Mobile Group Design Institute Co., Ltd., Beijing, China.

By: Zhang, Xincheng, 1970- [author.].
Material type: materialTypeLabelBookPublisher: Hoboken, NJ, USA : John Wiley & Sons Singapore Pte. Ltd, 2018Copyright date: ©2018Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781119158981; 1119158982.Subject(s): Long-Term Evolution (Telecommunications) -- Handbooks, manuals, etc | Wireless communication systems -- Handbooks, manuals, etc | Computer network protocols -- Handbooks, manuals, etc | Computer network protocols | Long-Term Evolution (Telecommunications) | Wireless communication systems | TECHNOLOGY & ENGINEERING / MechanicalGenre/Form: Handbooks and manuals. | Electronic books.Additional physical formats: Print version:: LTE optimization engineering handbookDDC classification: 621.3845/6 Online resources: Wiley Online Library
Contents:
Title Page; Table of Contents; About the Author; Preface; Part 1: LTE Basics and Optimization Overview; 1 LTE Basement; 1.1 LTE Principle; 1.2 LTE Services; 1.3 LTE Key Technology Overview; 2 LTE Optimization Principle and Method; 2.1 LTE Wireless Optimization Overview; 2.2 LTE Optimization Procedure; 2.3 LTE Optimization Key Point; Part 2: Main Principles of LTE Optimization; 3 Coverage Optimization; 3.1 Traffic Channel Coverage; 3.2 Control Channel Coverage; 4 Capacity Optimization; 4.1 RS SINR; 4.2 PDCCH Capacity; 4.3 PUCCH Capacity; 4.4 Number of Scheduled UEs; 4.5 Spectral Efficiency
4.6 DL Data Rate Optimization4.7 UL Data Rate Optimization; 4.8 Parameters Impacting Throughput; 5 Internal Interference Optimization; 5.1 Interference Concept; 5.2 DL Interference; 5.3 UL Interference; 5.4 Inter-Cell Interference Coordination; 5.5 UL IoT Control; 6 Drop Call Optimization; 6.1 Drop Call Mechanism; 6.2 Reasons of Call Drop and Optimization; 6.3 RRC Connection Reestablishment; 6.4 RRC Connection Supervision; 7 Latency Optimization; 7.1 User Plane Latency; 7.2 Control Plane Latency; 7.3 Random Access Latency Optimization; 7.4 Attach Latency Optimization
7.5 Paging Latency Optimization7.6 Parameters Impacting Latency; 8 Mobility Optimization; 8.1 Mobility Management; 8.2 Mobility Parameter; 8.3 Intra-LTE Cell Reselection; 8.4 Intra-LTE Handover Optimization; 8.5 Neighbor Cell Optimization; 8.6 Measurement Gap; 8.7 Indoor and Outdoor Mobility; 8.8 Inter-RAT Mobility; 8.9 Handover Interruption Time Optimization; 8.10 Handover Failure and Improvement; 8.11 Mobility Robustness Optimization; 8.12 Carrier Aggregation Mobility Optimization; 8.13 FDD-TDD Inter-mode Mobility Optimization; 8.14 Load Balance; 8.15 High-Speed Mobile Optimization
9 Traffic Model of Smartphone and Optimization9.1 Traffic Model of Smartphone; 9.2 Smartphone-Based Optimization; 9.3 High-Traffic Scenario Optimization; Part 3: Voice Optimization of LTE; 10 Circuit Switched Fallback Optimization; 10.1 Voice Evolution; 10.2 CSFB Network Architecture and Configuration; 10.3 CSFB Performance Optimization; 10.4 Short Message Over CSFB; 10.5 Case Study of CSFB Optimization; 11 VoLTE Optimization; 11.1 VoLTE Architecture and Protocol Stack; 11.2 VoIP/Video QoS and Features; 11.3 Semi-Persistent Scheduling and Other Scheduling Methods
11.4 PRB and MCS Selection Mechanism11.5 VoLTE Capacity; 11.6 VoLTE Coverage; 11.7 VoLTE Delay; 11.8 Intra-LTE Handover and eSRVCC; 11.9 Network Quality and Subjective Speech Quality; 11.10 Optimization; 11.11 UE Battery Consumption Optimization for VoLTE; 11.12 Comparation with VoLTE and OTT; Part 4: Advanced Optimization of LTE; 12 PRACH Optimization; 12.1 Overview; 12.2 PRACH Configuration Index; 12.3 RACH Root Sequence; 12.4 PRACH Cyclic Shift; 12.5 Prach Frequency Offset; 12.6 Preamble Collision Probability; 12.7 Preamble Power; 12.8 Random Access Issues; 12.9 RACH Message Optimization
Summary: A comprehensive resource containing the operating principles and key insights of LTE networks performance optimization LTE Optimization Engineering Handbook is a comprehensive reference that describes the most current technologies and optimization principles for LTE networks. The text offers an introduction to the basics of LTE architecture, services and technologies and includes details on the key principles and methods of LTE optimization and its parameters. In addition, the author clarifies different optimization aspects such as wireless channel optimization, data optimization, CSFB, VoLTE, and video optimization. With the ubiquitous usage and increased development of mobile networks and smart devices, LTE is the 4G network that will be the only mainstream technology in the current mobile communication system and in the near future. Designed for use by researchers, engineers and operators working in the field of mobile communications and written by a noted engineer and experienced researcher, the LTE Optimization Engineering Handbook provides an essential guide that: -Discusses the latest optimization engineering technologies of LTE networks and explores their implementation -Features the latest and most industrially relevant applications, such as VoLTE and HetNets -Includes a wealth of detailed scenarios and optimization real-world case studies Professionals in the field will find the LTE Optimization Engineering Handbook to be their go-to reference that includes a thorough and complete examination of LTE networks, their operating principles, and the most current information to performance optimization.
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Includes bibliographical references and index.

Title Page; Table of Contents; About the Author; Preface; Part 1: LTE Basics and Optimization Overview; 1 LTE Basement; 1.1 LTE Principle; 1.2 LTE Services; 1.3 LTE Key Technology Overview; 2 LTE Optimization Principle and Method; 2.1 LTE Wireless Optimization Overview; 2.2 LTE Optimization Procedure; 2.3 LTE Optimization Key Point; Part 2: Main Principles of LTE Optimization; 3 Coverage Optimization; 3.1 Traffic Channel Coverage; 3.2 Control Channel Coverage; 4 Capacity Optimization; 4.1 RS SINR; 4.2 PDCCH Capacity; 4.3 PUCCH Capacity; 4.4 Number of Scheduled UEs; 4.5 Spectral Efficiency

4.6 DL Data Rate Optimization4.7 UL Data Rate Optimization; 4.8 Parameters Impacting Throughput; 5 Internal Interference Optimization; 5.1 Interference Concept; 5.2 DL Interference; 5.3 UL Interference; 5.4 Inter-Cell Interference Coordination; 5.5 UL IoT Control; 6 Drop Call Optimization; 6.1 Drop Call Mechanism; 6.2 Reasons of Call Drop and Optimization; 6.3 RRC Connection Reestablishment; 6.4 RRC Connection Supervision; 7 Latency Optimization; 7.1 User Plane Latency; 7.2 Control Plane Latency; 7.3 Random Access Latency Optimization; 7.4 Attach Latency Optimization

7.5 Paging Latency Optimization7.6 Parameters Impacting Latency; 8 Mobility Optimization; 8.1 Mobility Management; 8.2 Mobility Parameter; 8.3 Intra-LTE Cell Reselection; 8.4 Intra-LTE Handover Optimization; 8.5 Neighbor Cell Optimization; 8.6 Measurement Gap; 8.7 Indoor and Outdoor Mobility; 8.8 Inter-RAT Mobility; 8.9 Handover Interruption Time Optimization; 8.10 Handover Failure and Improvement; 8.11 Mobility Robustness Optimization; 8.12 Carrier Aggregation Mobility Optimization; 8.13 FDD-TDD Inter-mode Mobility Optimization; 8.14 Load Balance; 8.15 High-Speed Mobile Optimization

9 Traffic Model of Smartphone and Optimization9.1 Traffic Model of Smartphone; 9.2 Smartphone-Based Optimization; 9.3 High-Traffic Scenario Optimization; Part 3: Voice Optimization of LTE; 10 Circuit Switched Fallback Optimization; 10.1 Voice Evolution; 10.2 CSFB Network Architecture and Configuration; 10.3 CSFB Performance Optimization; 10.4 Short Message Over CSFB; 10.5 Case Study of CSFB Optimization; 11 VoLTE Optimization; 11.1 VoLTE Architecture and Protocol Stack; 11.2 VoIP/Video QoS and Features; 11.3 Semi-Persistent Scheduling and Other Scheduling Methods

11.4 PRB and MCS Selection Mechanism11.5 VoLTE Capacity; 11.6 VoLTE Coverage; 11.7 VoLTE Delay; 11.8 Intra-LTE Handover and eSRVCC; 11.9 Network Quality and Subjective Speech Quality; 11.10 Optimization; 11.11 UE Battery Consumption Optimization for VoLTE; 11.12 Comparation with VoLTE and OTT; Part 4: Advanced Optimization of LTE; 12 PRACH Optimization; 12.1 Overview; 12.2 PRACH Configuration Index; 12.3 RACH Root Sequence; 12.4 PRACH Cyclic Shift; 12.5 Prach Frequency Offset; 12.6 Preamble Collision Probability; 12.7 Preamble Power; 12.8 Random Access Issues; 12.9 RACH Message Optimization

A comprehensive resource containing the operating principles and key insights of LTE networks performance optimization LTE Optimization Engineering Handbook is a comprehensive reference that describes the most current technologies and optimization principles for LTE networks. The text offers an introduction to the basics of LTE architecture, services and technologies and includes details on the key principles and methods of LTE optimization and its parameters. In addition, the author clarifies different optimization aspects such as wireless channel optimization, data optimization, CSFB, VoLTE, and video optimization. With the ubiquitous usage and increased development of mobile networks and smart devices, LTE is the 4G network that will be the only mainstream technology in the current mobile communication system and in the near future. Designed for use by researchers, engineers and operators working in the field of mobile communications and written by a noted engineer and experienced researcher, the LTE Optimization Engineering Handbook provides an essential guide that: -Discusses the latest optimization engineering technologies of LTE networks and explores their implementation -Features the latest and most industrially relevant applications, such as VoLTE and HetNets -Includes a wealth of detailed scenarios and optimization real-world case studies Professionals in the field will find the LTE Optimization Engineering Handbook to be their go-to reference that includes a thorough and complete examination of LTE networks, their operating principles, and the most current information to performance optimization.

Description based on online resource; title from digital title page (viewed on January 12, 2018).

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