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E-grāmata: HSPA Evolution: The Fundamentals for Mobile Broadband

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(3GPP Standardisation Delegate, Ericsson AB, Stockholm, Sweden), (Ericsson, Sweden), (Ericsson, Sweden), (Ericsson, Sweden), (Ericsson, Sweden), (Senior Specialist RAN Evaluations, Ericsson AB, Stockholm, Sweden)
  • Formāts: PDF+DRM
  • Izdošanas datums: 24-Nov-2014
  • Izdevniecība: Academic Press Inc.(London) Ltd
  • Valoda: eng
  • ISBN-13: 9780128004340
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HSPA Evolution: The Fundamentals for Mobile BroadbandPalielināt
  • Formāts: PDF+DRM
  • Izdošanas datums: 24-Nov-2014
  • Izdevniecība: Academic Press Inc.(London) Ltd
  • Valoda: eng
  • ISBN-13: 9780128004340
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This book is essential reading for those wishing to obtain a systems perspective and a broad view on the background, performance and application of the latest developments in HSPA in the context of the demands on today’s mobile broadband devices and networks. It takes the reader behind the scenes of 3GPP and provides an easily accessible understanding of the basic principles, the latest steps in the standard’s evolution, and the motivations behind the development of standardized features. It covers important topics such as smartphone related features, multi-carrier and multi-antenna operation, interface architecture, heterogeneous networks and HSPA system performance. Offering full coverage of recent developments in HSPA up to Release 13, this book will provide a comprehensive description of one of the dominating standards for mobile broadband.With this book, you will:Get a guided and consistent tour through the evolutionary stages of HSPAGain an understanding of the 3GPP standardization process, the driving forces behind it, and the need for evolutionLearn about the fundamental technology components of a modern wireless communication system, such as basic link level architecture, cellular system behavior, traffic management and scheduling and system managementLearn in detail the features of the latest HSPA development up to Release 13Gain a deep insight into the means by which HSPA performance can be simulated and characterized, the factors that drive the performance of networks and user experience, and the performance expectations for the technologyObtain insight into the telecommunications market and its evolution Learn about current trends and the future direction of HSPA A full insight into the 3GPP and regulatory standardisation processes and the factors that drive evolution of the specificationsA walk through of the fundamental technology principles that lie behind HSPAA structured overview of the WCDMA/HSPA feature set, offering insider coverage starting from the core release 5/6 technologies and reviewing each of the added features up to and including the most recent developments in the areaAn overview of the frequency bands available for HSPAAn insight into the radio performance requirements, their background and implications for mobiles and networksA tutorial on simulation principles for HSPAA description of the performance of HSPA features within the context of a tutorial on the factors that drive performance

Papildus informācija

Learn about the latest developments and application of HSPA, one of the dominating standards for mobile broadband
List of Figures
ix
List of Tables
xix
Preface xxi
Acknowledgments xxiii
PART I INTRODUCTION
Chapter 1 From 3G to 4G: background and motivation of 3G evolution
3(20)
1.1 History and background of 3G
3(3)
1.2 Standardization
6(8)
1.3 Spectrum for 3G and systems beyond 3G
14(1)
1.4 The motivations behind continuing HSPA evolution
15(8)
References
19(4)
PART II TECHNOLOGIES FOR HSPA
Chapter 2 High data rates in mobile communication
23(12)
2.1 High data rates: fundamental constraints
23(5)
2.2 Higher data rates within a limited bandwidth: higher-order modulation
28(3)
2.3 Wider bandwidth including multicarrier transmission
31(4)
References
34(1)
Chapter 3 CDMA transmission principles
35(14)
3.1 Spread spectrum basics
35(6)
3.2 Baseband transmitter model for a CDMA system
41(1)
3.3 Spread spectrum in a real propagation environment
42(2)
3.4 Receiver and equalization strategies
44(5)
References
48(1)
Chapter 4 Multi-antenna techniques
49(22)
4.1 Multi-antenna configurations
49(1)
4.2 Benefits of multi-antenna techniques
50(1)
4.3 Multiple receive antennas
51(5)
4.4 Multiple transmit antennas
56(6)
4.5 Spatial multiplexing
62(9)
References
68(3)
Chapter 5 Scheduling, link adaptation, and hybrid-ARQ
71(20)
5.1 Link adaptation: power and rate control
72(1)
5.2 Channel-dependent scheduling
73(9)
5.3 Retransmission schemes
82(1)
5.4 Hybrid-ARQ with soft combining
83(8)
References
86(5)
PART III HSPA AND ITS EVOLUTION
Chapter 6 Overview of release 99 WCDMA
91(14)
6.1 System architecture
91(2)
6.2 Protocol architecture
93(2)
6.3 Physical layer; downlink
95(3)
6.4 Physical layer; uplink
98(2)
6.5 Resource handling and packet-data session
100(2)
6.6 UE RRC states and state transitions
102(3)
References
103(1)
Further Reading
103(2)
Chapter 7 Introduction to HSPA
105(10)
7.1 HSPA emerges from WCDMA: fundamental building blocks
106(5)
7.2 Other enhancements
111(4)
References
114(1)
Further Reading
114(1)
Chapter 8 High-speed downlink packet access
115(48)
8.1 Overview
116(4)
8.2 Details of HSDPA
120(18)
8.3 Finer details of HSDPA
138(20)
8.4 Release 7 improved layer 2
158(5)
References
161(1)
Further Reading
162(1)
Chapter 9 High-speed uplink packet access
163(56)
9.1 Overview
164(4)
9.2 Details of HSUPA
168(22)
9.3 Finer details of HSUPA
190(29)
References
218(1)
Further Reading
218(1)
Chapter 10 Higher-order modulation
219(16)
10.1 Overview
219(2)
10.2 Downlink 64-QAM
221(4)
10.3 Uplink higher-order modulation
225(10)
References
233(1)
Further Reading
233(2)
Chapter 11 Multi-antenna transmission
235(72)
11.1 Overview
236(6)
11.2 Downlink transmit diversity
242(5)
11.3 Downlink two-branch MIMO
247(17)
11.4 Downlink four-branch MIMO
264(17)
11.5 Uplink transmit diversity
281(11)
11.6 Uplink two-branch MIMO
292(15)
References
305(1)
Further Reading
306(1)
Chapter 12 Multi-carrier techniques
307(26)
12.1 Evolution of multi-carrier HSPA
308(2)
12.2 Downlink, multi-earner HSDPA in detail
310(16)
12.3 Uplink DC-HSUPA in detail
326(7)
Further Reading
331(2)
Chapter 13 Multi-flow transmission
333(14)
13.1 Overview
333(5)
13.2 Details of multi-flow transmission
338(9)
Further Reading
346(1)
Chapter 14 Connectivity enhancements
347(54)
14.1 Continuous packet connectivity (CPC)
349(15)
14.2 Enhanced CRLL_FACH
364(37)
Chapter 15 Multimedia broadcast multicast services
401(16)
15.1 Release 6 MBMS overview
404(4)
15.2 Details of release 6 MBMS
408(3)
15.3 Release 7 MBSFN
411(2)
15.4 Release 8 integrated mobile broadcast
413(4)
References
415(1)
Further Reading
415(2)
Chapter 16 Spectrum and RF characteristics
417(34)
16.1 Spectrum for UTRA
418(5)
16.2 Flexible spectrum use
423(2)
16.3 Multi-carrier operation
425(3)
16.4 Multistandard radio base stations
428(4)
16.5 Overview of RF requirements for UTRA
432(4)
16.6 Output power level requirements
436(1)
16.7 Transmitted signal quality
437(1)
16.8 Unwanted emissions requirements
438(6)
16.9 Sensitivity and dynamic range
444(1)
16.10 Receiver susceptibility to interfering signals
444(2)
16.11 Multiband-capable base stations
446(5)
References
449(2)
Chapter 17 Heterogeneous networks
451(12)
17.1 Motivation for deployment of heterogeneous networks
452(1)
17.2 Types of nodes in heterogeneous networks
453(1)
17.3 Issues to consider with heterogeneous networks
454(9)
Reference
459(1)
Further Reading
459(4)
PART IV PERFORMANCE AND FUTURE OUTLOOK
Chapter 18 HSPA system performance
463(26)
18.1 Typical system modeling assumptions
465(10)
18.2 System simulation performance metrics
475(2)
18.3 HSPA performance drivers
477(6)
18.4 HSPA performance figures
483(6)
References
487(1)
Further Reading
487(2)
Chapter 19 Release 12 and beyond
489(26)
19.1 Heterogeneous networks
490(8)
19.2 HSUPA enhancements
498(5)
19.3 DCH enhancements
503(4)
19.4 BCH enhancements
507(2)
19.5 Looking to the future - release 13
509(6)
References
513(2)
List of Acronyms 515(10)
Index 525
Thomas Chapman is currently working within the radio access and standardization team within the Standards and Technology group at Ericsson. He has been contributing to 3GPP standardization since 2000 to the whole portfolio of 3GPP technologies, including UTRA TDD, WCDMA, HSPA, LTE, and NR, and has been deeply involved in concept evaluation and standardization of AAS in RAN4. He holds an MSc (1996) and PhD (2000) in electronic engineering and signal processing from the University of Manchester, UK.

Erik Larsson joined Ericsson in 2005. He is currently a Senior Specialist working with concept development and network performance for NR with a focus on massive MIMO. He holds both an MSc in engineering physics and a PhD in electrical engineering, specializing in signal processing, from Uppsala University, Sweden.

Erik Dahlman works at Ericsson Research and are deeply involved in 4G and 5G development and standardization since the early days of 3G research. Stefan Parkvall works at Ericsson Research and are deeply involved in 4G and 5G development and standardization since the early days of 3G research. Johan Skold works at Ericsson Research and are deeply involved in 4G and 5G development and standardization since the early days of 3G research.
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