Op werkdagen voor 23:00 besteld, morgen in huis Gratis verzending vanaf €20

Introduction to Mobile Network Engineering: GSM, 3G–WCDMA, LTE and the Road to 5G

Gebonden Engels 2018 9781119484172
Verwachte levertijd ongeveer 8 werkdagen

Samenvatting

Summarizes and surveys current LTE technical specifications and implementation options for engineers and newly qualified support staff

Concentrating on three mobile communication technologies, GSM, 3G-WCDMA, and LTE—while majorly focusing on Radio Access Network (RAN) technology—this book describes principles of mobile radio technologies that are used in mobile phones and service providers’ infrastructure supporting their operation.

It introduces some basic concepts of mobile network engineering used in design and rollout of the mobile network. It then follows up with principles, design constraints, and more advanced insights into radio interface protocol stack, operation, and dimensioning for three major mobile network technologies: Global System Mobile (GSM) and third (3G) and fourth generation (4G) mobile technologies.

The concluding sections of the book are concerned with further developments toward next generation of mobile network (5G). Those include some of the major features of 5G such as a New Radio, NG-RAN distributed architecture, and network slicing. The last section describes some key concepts that may bring significant enhancements in future technology and services experienced by customers.

Introduction to Mobile Network Engineering: GSM, 3G-WCDMA, LTE and the Road to 5G covers the types of Mobile Network by Multiple Access Scheme; the cellular system; radio propagation; mobile radio channel; radio network planning; EGPRS - GPRS/EDGE; Third Generation Network (3G), UMTS; High Speed Packet data access (HSPA); 4G-Long Term Evolution (LTE) system; LTE-A; and Release 15 for 5G.

- Focuses on Radio Access Network technologies which empower communications in current and emerging mobile network systems
- Presents a mix of introductory and advanced reading, with a generalist view on current mobile network technologies
- Written at a level that enables readers to understand principles of radio network deployment and operation
- Based on the author’s post-graduate lecture course on Wireless Engineering
- Fully illustrated with tables, figures, photographs, working examples with problems and solutions, and section summaries highlighting the key features of each technology described

Written as a modified and expanded set of lectures on wireless engineering taught by the author, Introduction to Mobile Network Engineering: GSM, 3G-WCDMA, LTE and the Road to 5G is an ideal text for post-graduate and graduate students studying wireless engineering, and industry professionals requiring an introduction or refresher to existing technologies.

Specificaties

ISBN13:9781119484172
Taal:Engels
Bindwijze:gebonden
Aantal pagina's:416
Druk:1
Verschijningsdatum:24-8-2018
Hoofdrubriek:IT-management / ICT

Lezersrecensies

Wees de eerste die een lezersrecensie schrijft!

Geef uw waardering

Zeer goed Goed Voldoende Matig Slecht

Inhoudsopgave

Foreword xvii
Acknowledgements xix
Abbreviations xxi

1 Introduction 1

2 Types of Mobile Network by Multiple–Access Scheme 3

3 Cellular System 5
3.1 Historical Background 5
3.2 Cellular Concept 5
3.3 Carrier–to–Interference Ratio 6
3.4 Formation of Clusters 8
3.5 Sectorization 9
3.6 Frequency Allocation 10
3.7 Trunking Effect 11
3.8 Erlang Formulas 13
3.9 Erlang B Formula 13
3.10 Worked Examples 14

4 Radio Propagation 19
4.1 Propagation Mechanisms 19

5 Mobile Radio Channel 27
5.1 Channel Characterization 28
5.2 Worked Examples 36
5.3 Fading 36
5.4 Diversity to Mitigate Multipath Fading 42
5.5 Worked Examples 44
5.6 Receiver Noise Factor (Noise Figure) 45

6 Radio Network Planning 49
6.1 Generic Link Budget 49
6.2 Worked Examples 56

7 Global SystemMobile, GSM, 2G 59
7.1 General Concept for GSM System Development 59
7.2 GSM System Architecture 59
7.3 Radio Specifications 69
7.4 Background for the Choice of Radio Parameters 81
7.5 Communication Channels in GSM 84
7.6 Mapping the Logical Channels onto Physical Channels 86
7.7 Signalling During a Call 93
7.8 Signal Processing Chain 97
7.9 Estimating Required Signalling Capacity in the Cell 100
References 102

8 EGPRS: GPRS/EDGE 103
8.1 GPRS Support Nodes 103
8.2 GPRS Interfaces 104
8.3 GPRS Procedures in Packet Call Setups 104
8.4 GPRS Mobility Management 105
8.5 Layered Overview of the Radio Interface 108
8.6 GPRS/GSM Territory in a Base–Station Transceiver 115
8.7 Summary 118
References 119

9 Third Generation Network (3G), UMTS 121
9.1 The WCDMA Concept 123
9.2 Major Parameters of 3G WCDMA Air Interface 136
9.3 Spectrum Allocation for 3G WCDMA 136
9.4 3G Services 138
9.5 UMTS Reference Network Architecture and Interfaces 140
9.6 Air–Interface Architecture and Processing 142
9.7 Channels on the Air Interface 146
9.8 Physical–Layer Procedures 150
9.9 RRC States 162
9.10 RRM Functions 167
9.11 Initial Access to the Network 169
9.12 Summary 170
References 171

10 High–Speed Packet Data Access (HSPA) 173
10.1 HSDPA, High–Speed Downlink Packet Data Access 173
10.2 HSPA RRM Functions 175
10.3 MAC–hs and Physical–Layer Processing 181
10.4 HSDPA Channels 182
10.5 HSUPA (Enhanced Uplink, E–DCH) 189
10.6 Air–Interface Dimensioning 192
10.7 Summary 203
References 204

11 4G–Long Term Evolution (LTE) System 205
11.1 Introduction 205
11.2 Architecture of an Evolved Packet System 206
11.3 LTE Integration with Existing 2G/3G Network 207
11.3.1 EPS Reference Points and Interfaces 208
11.4 E–UTRAN Interfaces 209
11.5 User Equipment 210
11.5.1 LTE UE Category 210
11.6 QoS in LTE 211
11.7 LTE Security 212
11.8 LTE Mobility 214
11.9 LTE Radio Interface 219
11.10 Principle of OFDM 220
11.11 OFDM Implementation using IFFT/FFT Processing 223
11.12 Cyclic Prefix 223
11.13 Channel Estimation and Reference Symbols 225
11.14 OFDM Subcarrier Spacing 227
11.15 Output RF Spectrum Emissions 227
11.16 LTE Multiple–Access Scheme, OFDMA 228
11.17 Single–Carrier FDMA (SC–FDMA) 229
11.18 OFDMA versus SC–FDMA Operation 230
11.19 SC–FDMA Receiver 231
11.20 User Multiplexing with DFTS–OFDM 231
11.21 MIMO Techniques 232
11.22 Link Adaptation and Frequency Domain Packet Scheduling 237
11.23 Radio Protocol Architecture 238
11.24 Downlink Physical Layer Processing 248
11.25 Downlink Control Channels 258
11.26 Mapping the Control Channels to Downlink Transmission Resources 264
11.27 Uplink Control Signalling 264
11.28 Uplink Reference Signals 271
11.29 Physical–Layer Procedures 273
11.30 LTE Radio Dimensioning 279
11.31 Summary 289
References 290

12 LTE–A 293
12.1 Carrier Aggregation 296
12.2 Enhanced MIMO 300
12.3 Coordinated Multi–Point Operation (CoMP) 303
12.4 Relay Nodes 309
12.5 Enhanced Physical Downlink Control Channel (E–PDCCH) 315
12.6 Downlink Multiuser Superposition, MUST 315
12.7 Summary of LTE–A Features 317
References 317

13 Further Development for the Fifth Generation 319
13.1 Overall Operational Requirements for a 5G Network System 320
13.2 Device Requirements 320
13.3 Capabilities of 5G 321
13.4 Spectrum Consideration 321
13.5 5G Technology Components 322
13.6 5G System Architecture (Release 15) 335
13.7 New Radio (NR) 341
13.8 Summary 364
References 364

14 Annex: Base–Station Site Solutions 367
14.1 The Base–Station OBSAI Architecture 367
14.2 Common Public Radio Interface, CPRI 370
14.3 SDR and Multiradio BTS 371
14.4 Site Solution with OBSAI Type Base Stations 372

References 375

Index 377

Alle 100 bestsellers

Rubrieken

Populaire producten

    Personen

      Trefwoorden

        Introduction to Mobile Network Engineering: GSM, 3G–WCDMA, LTE and the Road to 5G