Fundamentals of Network Planning and Optimisation 2G/3G/4G : Evolution To 5G.

Intro -- Title Page -- Copyright Page -- Contents -- Foreword by Aruna Sundararajan -- Foreword by Rainer Deutschmann -- Preface -- Acknowledgements -- List of Abbreviations -- Chapter 1 Overview of Mobile Networks -- 1.1 Introduction -- 1.2 Mobile Network Evolution -- 1.2.1 First-generation System (Analogue System) -- 1.2.2 Second-generation System (Digital System) -- 1.2.3 Third-generation Networks (WCDMA in UMTS) -- 1.2.4 Fourth-generation Networks (LTE) -- 1.2.5 Fifth-generation Networks -- 1.3 Information Theory -- 1.3.1 Multiple Access Techniques -- 1.3.2 Modulations -- 1.3.3 OSI Reference Model -- 1.4 Second-generation Mobile Network -- 1.4.1 Base Station Subsystem (BSS) -- 1.4.2 Network Subsystem (NSS) -- 1.4.3 Network Management System (NMS) -- 1.4.4 Interfaces and Signalling in GSM -- 1.5 Third-generation Mobile Networks -- 1.5.1 Radio Access Network (RAN) -- 1.5.2 Core Network (CN) -- 1.5.3 Interfaces and Signalling in 3G Networks -- 1.6 Fourth-generation Mobile Networks -- 1.6.1 Access Network -- 1.6.2 Evolved Packet Core Network -- 1.6.3 Interfaces and Signalling -- 1.7 Fifth-generation Networks -- 1.8 Supporting Technologies -- 1.8.1 ADSL2+ -- 1.8.2 VDSL2 -- 1.8.3 FTTN -- 1.8.4 V+ -- 1.8.5 GPON -- 1.8.6 GEPON -- 1.8.7 G.Fast -- 1.8.8 XG-PON1 -- 1.8.9 XGS-PON -- 1.8.10 NGPON2 -- 1.8.11 NB-IoT -- 1.8.12 LTE eMTC -- 1.8.13 RFID -- 1.8.14 NFC -- 1.8.15 ZigBee -- 1.8.16 Z-Wave -- 1.8.17 LoRa -- 1.8.18 SigFox -- 1.8.19 Li-Fi -- 1.8.20 V2V and V2I -- 1.8.21 SRD -- 1.8.22 RLAN -- 1.8.23 PMR -- Part I: 2G GSM and EGPRS Network Planning and Optimisation -- Chapter 2 Radio Network Planning and Optimisation -- 2.1 Basics of Radio Network Planning -- 2.1.1 Scope of Radio Network Planning -- 2.1.2 Cell Shapes -- 2.1.3 Elements in a Radio Network -- 2.1.4 Channel Configuration in GSM -- 2.2 Radio Network Planning Process.

2.2.1 Radio Cell and Wave Propagation -- 2.2.2 Propagation Effects and Parameters -- 2.2.3 Network Planning Requirements: Dimensioning -- 2.3 Radio Network Pre-planning -- 2.3.1 Site Survey and Site Selection -- 2.3.2 Result of Site Survey Process -- 2.4 Radio Network Detailed Planning -- 2.4.1 Link Budget -- 2.4.2 Frequency Hopping -- 2.4.3 Equipment Enhancements -- 2.4.4 Cell and Network Coverage -- 2.4.5 Capacity Planning -- 2.4.6 Spectrum Efficiency and Frequency Planning -- 2.4.7 Power Control -- 2.4.8 Handover -- 2.4.9 Discontinuous Transmission -- 2.4.10 Frequency Hopping -- 2.4.11 Parameter Planning -- 2.5 Basics of Radio Network Optimisation -- 2.5.1 Key Performance Indicators -- 2.5.2 Network Performance Monitoring -- 2.5.3 Network Performance Assessment -- 2.6 GPRS Network Planning and Optimisation -- 2.6.1 GPRS System -- 2.6.2 Interfaces in a GPRS Network -- 2.6.3 Protocol Structure in a GPRS Network -- 2.7 Network Planning in a GPRS Network -- 2.7.1 GPRS Radio Network Planning -- 2.7.2 Mobility and Radio Resource Management -- 2.7.3 Power Control -- 2.7.4 Concept of Temporary Block Flow -- 2.8 GPRS Detailed Radio Network Planning -- 2.8.1 Coverage Planning -- 2.8.2 Capacity Planning -- 2.8.3 Frequency Planning -- 2.8.4 Parameter Planning -- 2.9 GPRS Radio Network Optimisation -- 2.10 EDGE Network Planning and Optimisation -- 2.10.1 EGPRS and ECSD -- 2.10.2 EDGE System -- 2.11 EDGE Radio Network Planning Process -- 2.11.1 EDGE Radio Network Planning -- 2.12 Radio Network Planning Process -- 2.12.1 Coverage Planning -- 2.13 EDGE Radio Network Optimisation -- 2.13.1 Key Performance Indicators -- 2.13.2 Performance Measurements -- 2.13.3 Improvement of Throughput in EDGE Networks -- 2.14 Conclusions -- Chapter 3 Transmission Network Planning and Optimisation -- 3.1 Basics of Transmission Network Planning.

3.1.1 Scope of Transmission Network Planning -- 3.1.2 Elements in a Transmission Network -- 3.2 Transmission Network Planning Process -- 3.3 Transmission Pre‐planning -- 3.3.1 One PCM Connection -- 3.3.2 PCM Requirements on the Abis and Ater Interface -- 3.3.3 Equipment Location -- 3.3.4 Network Topology -- 3.3.5 Site Selection and Line-of-Sight Survey -- 3.3.6 Radius of the Fresnel Zone -- 3.3.7 Microwave Link Planning -- 3.3.8 Design Principles for Microwave Link -- 3.3.9 Error Performance and Availability -- 3.4 Detailed Transmission Network Planning -- 3.4.1 Frequency Planning -- 3.4.2 Timeslot Allocation Planning -- 3.4.3 2 Mbps Planning -- 3.4.4 Synchronisation Planning -- 3.4.5 Transmission Network Management Planning -- 3.5 Transmission Network Optimisation -- 3.5.1 Basics of Transmission Network Optimisation -- 3.5.2 Transmission Network Optimisation Process -- 3.6 GPRS Transmission Network Planning and Optimisation -- 3.7 EDGE Transmission Network Planning -- 3.7.1 Dynamic Abis Functionality in EDGE Networks -- 3.7.2 Timeslot Allocation in Dynamic Abis -- 3.7.3 Dimensioning of Dynamic Abis -- 3.7.4 Impact of Dynamic Abis on Transmission Network Design -- 3.7.5 EDGE Transmission Network Optimisation -- Chapter 4 Core Network Planning and Optimisation -- 4.1 Basics of Core Network Planning -- 4.1.1 Scope of Core Network Planning -- 4.1.2 Elements of the Core Network -- 4.2 Core Network Planning Process -- 4.2.1 Network Analysis -- 4.2.2 Network Dimensioning -- 4.3 Basics of Signalling -- 4.3.1 Signalling Points -- 4.3.2 Signalling Links -- 4.3.3 Signalling Network Dimensioning -- 4.4 Intelligent Network (IN) -- 4.5 Failure Analysis and Protection -- 4.5.1 Output of Network Dimensioning -- 4.6 Detailed Planning -- 4.6.1 Routing Plans -- 4.6.2 Signalling Plans -- 4.6.3 Numbering and Charging -- 4.6.4 Synchronisation Plans.

4.7 Core Network Optimisation -- 4.7.1 Basics of the Optimisation Process -- 4.7.2 Data Collection and Analysis -- 4.7.3 Core Network Optimization Plan -- 4.8 GPRS Core Network Planning -- 4.8.1 Packet Core Network Planning -- 4.8.2 Basics of IP Addressing -- 4.8.3 IP Routing -- 4.9 EDGE Core Network Planning -- Part II: 3G UMTS Network Planning and Optimisation -- Chapter 5 3G Radio Network Planning and Optimisation -- 5.1 Basics of Radio Network Planning -- 5.1.1 Scope of Radio Network Planning -- 5.1.2 3G System Requirements -- 5.1.3 WCDMA Radio Fundamentals -- 5.1.4 Service Classes in UMTS -- 5.1.5 Element in a WCDMA Radio Network -- 5.2 Radio Interface Protocol Architecture -- 5.2.1 Protocol Structure for Universal Terrestrial Radio Access Network (UTRAN) -- 5.2.2 Channel Configuration in WCDMA Radio Network -- 5.3 Spreading Phenomenon -- 5.3.1 Scrambling Code -- 5.3.2 Channelisation Code -- 5.4 Multipath Propagation -- 5.5 Radio Network Planning Process -- 5.5.1 Pre-Planning Phase -- 5.5.2 Structure and Performance of the Physical Layer -- 5.5.3 Uplink and Downlink Modulation -- 5.5.4 Uplink and Downlink Spreading -- 5.5.5 Code Planning -- 5.5.6 Power Control in WCDMA Radio Networks -- 5.5.7 Handover in WCDMA Radio Networks -- 5.5.8 Coverage Planning -- 5.5.9 Capacity Planning -- 5.5.10 AMR -- 5.6 Detailed Planning -- 5.6.1 Coverage and Capacity -- 5.6.2 Radio Resource Management -- 5.7 High Speed Packet Access -- 5.7.1 HSDPA -- 5.7.2 HSUPA (High Speed Uplink Packer Access) -- 5.8 WCDMA Radio Network Optimisation -- 5.8.1 Key Performance Indicators -- 5.8.2 Network Performance Monitoring -- 5.8.3 Coverage, Capacity and Quality Enhancements -- 5.8.4 Parameter Tuning -- Chapter 6 3G Transmission Network Planning and Optimisation -- 6.1 Basics of 3G (WCDMA) Transmission Network Planning -- 6.1.1 Scope of Transmission Network Planning.

6.1.2 Elements in 3G Transmission Networks -- 6.2 Transmission Network Planning Process -- 6.2.1 Nominal Planning -- 6.3 Asynchronous Transfer Mode -- 6.3.1 Cell Structure -- 6.3.2 ATM Protocol Layers -- 6.3.3 Multiplexing and Switching in the ATM -- 6.4 Dimensioning -- 6.4.1 VAF -- 6.4.2 SHO -- 6.4.3 Protocol Overhead -- 6.4.4 Signalling Overhead -- 6.4.5 Signalling on Transmission Interfaces -- 6.4.6 Other factors -- 6.5 Microwave Link Planning -- 6.5.1 Topology in Transmission Networks -- 6.6 Detailed Planning -- 6.6.1 Parameter Planning -- 6.6.2 Traffic Management on the ATM -- 6.6.3 Network Element and Interface Configuration Parameters -- 6.6.4 ATM Planning -- 6.6.5 Synchronisation Plan -- 6.6.6 Network Management Plan -- 6.7 Ethernet Radio -- 6.8 3G WCDMA Transmission Network Optimisation -- 6.8.1 Basics of Transmission Network Optimisation in 3G Networks -- 6.8.2 Process Definition -- 6.8.3 Network Analysis -- 6.8.4 Analysis of the ATM Layer -- 6.8.5 Parameter Setting -- Chapter 7 3G Core Network Planning and Optimisation -- 7.1 Basics of Core Network Planning -- 7.1.1 Scope of Core Network Planning -- 7.1.2 Network Elements in the Core Network -- 7.2 Core Network Planning Process -- 7.2.1 Circuit Switch - Core Network Planning -- 7.2.2 Packet Switch - Core Network Planning -- 7.3 Detailed Network Planning -- 7.3.1 Circuit Switch Network -- 7.3.2 Packet Switch Network -- 7.4 Core Network Optimisation -- 7.5 End-to-End Quality of Service -- Part III: 4G LTE Network Planning and Optimisation -- Chapter 8 4G Radio Network Planning and Optimisation -- 8.1 Basics of Radio Network Planning -- 8.1.1 Scope of Radio Network Planning -- 8.1.2 LTE System Requirements -- 8.1.3 LTE Radio Fundamentals -- 8.2 LTE Air Interface -- 8.2.1 OFDMA -- 8.2.2 SC-FDMA -- 8.3 LTE Frame Structure -- 8.4 LTE Protocol Stack -- 8.4.1 Bearers in LTE.

8.5 LTE Channel Structure.

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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.