Fundamentals of network planning and optimisation 2G/3G/4G evolution to 5G

Updated new edition covering all aspects of network planning and optimization This welcome new edition provides comprehensive coverage of all aspects of network planning in all the technologies, from 2G to 5G, in radio, transmission and core aspects. Written by leading experts in the field, it serv...

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Detalles Bibliográficos
Otros Autores:	Mishra, Ajay R., author (author), India, Ericsson, author
Formato:	Libro electrónico
Idioma:	Inglés
Publicado:	Hoboken, NJ, USA : Wiley 2018.
Edición:	Second edition
Materias:	Cell phone systems > Design and construction. Wireless communication systems > Design and construction. Computer networks > Design and construction.
Ver en Biblioteca Universitat Ramon Llull:	https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009630731706719

Tabla de Contenidos:

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.

Fundamentals of network planning and optimisation 2G/3G/4G evolution to 5G

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