LTE optimization engineering handbook /

LTE optimization engineering handbook /

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Bibliographic Details
Main Author: Zhang, Xincheng, 1970- (Author)
Format: Book
Language:English
Published: Hoboken, NJ, USA : John Wiley & Sons Singapore Pte. Ltd, 2018
Subjects:
Computer network protocols > Handbooks, manuals, etc
Long-Term Evolution (Telecommunications) > Handbooks, manuals, etc
Wireless communication systems > Handbooks, manuals, etc
Electronic books
Table of 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
  • 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
  • 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

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