3G evolution: HSPA and LTE for mobile broadband
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2007
|
| Ausgabe: | Repr. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index. - Formerly CIP |
| Beschreibung: | XXXV, 448 S. graph. Darst. |
| ISBN: | 012372533X 9780123725332 |
Internformat
MARC
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| 008 | 080424s2007 d||| |||| 00||| eng d | ||
| 020 | |a 012372533X |c (hbk.) : £59.99 hbk. : £59.99 |9 0-12-372533-X | ||
| 020 | |a 9780123725332 |9 978-0-12-372533-2 | ||
| 035 | |a (OCoLC)153548894 | ||
| 035 | |a (DE-599)BSZ274140705 | ||
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| 084 | |a ZN 6560 |0 (DE-625)157572: |2 rvk | ||
| 245 | 1 | 0 | |a 3G evolution |b HSPA and LTE for mobile broadband |c Erik Dahlman .... |
| 250 | |a Repr. | ||
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier |c 2007 | |
| 300 | |a XXXV, 448 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Includes bibliographical references and index. - Formerly CIP | ||
| 650 | 4 | |a Broadband communication systems / Standards | |
| 650 | 4 | |a Mobile communication systems / Standards | |
| 650 | 4 | |a Cellular telephone systems / Standards | |
| 650 | 0 | 7 | |a Zellulares Mobilfunksystem |0 (DE-588)4387563-4 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Mobilfunk |0 (DE-588)4170280-3 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Mobile Telekommunikation |0 (DE-588)4341131-9 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Mobile Telekommunikation |0 (DE-588)4341131-9 |D s |
| 689 | 0 | 1 | |a Zellulares Mobilfunksystem |0 (DE-588)4387563-4 |D s |
| 689 | 0 | |5 DE-604 | |
| 689 | 1 | 0 | |a Mobilfunk |0 (DE-588)4170280-3 |D s |
| 689 | 1 | 1 | |a Zellulares Mobilfunksystem |0 (DE-588)4387563-4 |D s |
| 689 | 1 | |5 DE-604 | |
| 700 | 1 | |a Dahlman, Erik |d 1964- |e Sonstige |0 (DE-588)136118933 |4 oth | |
| 856 | 4 | 2 | |m Digitalisierung UB Augsburg |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016460500&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-016460500 | ||
Datensatz im Suchindex
| _version_ | 1804137591758389249 |
|---|---|
| adam_text | Contents
List of Figures
xiii
List of Tables
xxiii
Preface
xxv
Acknowledgements
xxvii
List of Acronyms
xxix
Part I: Introduction
1
Background of 3G evolution
3
1.1
History and background of 3G
...................................3
1.1.1
Before 3G
...............................................3
1.1.2
Early 3G discussions
.....................................5
1.1.3
Research on 3G
..........................................6
1.1.4
3G standardization starts
..................................7
1.2
Standardization
.................................................7
1.2.1
The standardization process
...............................7
1.2.2
3GPP
...................................................8
] .2.3
IMT-2000 activities in ITU
...............................
II
1.3
Spectrum for 3G
...............................................12
2
The motives behind the 3G evolution
17
2.1
Driving forces
.................................................17
2.1.1
Technology advancements
...............................18
2.1.2
Services
................................................19
2.1.3
Cost and performance
...................................21
2.2
3G evolution: two Radio Access Network approaches and
an evolved core network
........................................23
2.2.1
Radio Access Network evolution
.........................23
2.2.2
A evolved core network: System Architecture
Evolution
..............................................26
Part II: Technologies for 3G Evolution
3
High data rates in mobile communication
31
3.1
High data rates: fundamental constraints
.........................31
3.1.1
High data rates in noise-limited scenarios
..................33
Contents
3.1.2
Higher data rates in interference-limited scenarios
..........35
3.2
Higher data rates within a limited bandwidth: higher-order
modulation
....................................................36
3.2.1
Higher-order modulation in combination with
channel coding
.........................................37
3.2.2
Variations in instantaneous transmit power
.................38
3.3
Wider bandwidth including multi-carrier transmission
.............39
3.3.
J
Multi-carrier transmission
...............................41
OFDM transmission
45
4.1
Basic principles of OFDM
....................................45
4.2
OFDM demodulation
.........................................48
4.3
OFDM implementation using IFFT/FFT processing
.............48
4.4
Cyclic-prefix insertion
........................................51
4.5
Frequency-domain model of OFDM transmission
...............53
4.6
Channel estimation and reference symbols
......................54
4.7
Frequency diversity with OFDM: importance of channel coding
.....55
4.8
Selection of basic OFDM parameters
...........................57
4.8.1
OFDM
subcarrier
spacing
...............................57
4.8.2
Number of
subcarriers
.................................59
4.8.3
Cyclic-prefix length
....................................59
4.9
Variations in instantaneous transmission power
..................60
4.10
OFDM as a user-multiplexing and multiple-access scheme
.......6
J
4.11
Multi-cell broadcast/multicast transmission and OFDM
..........63
Wider-band single-carrier transmission
67
5.1
Equalization against radio-channel frequency selectivity
.........67
5.1.1
Time-domain linear equalization
.........................68
5.1.2
Frequency-domain equalization
..........................70
5.1.3
Other equalizer strategies
...............................73
5.2
Uplink FDMA with flexible bandwidth assignment
..............73
5.3
DFT-spread OFDM
...........................................75
5.3.1
Basic principles
........................................75
5.3.2
DFTS-OFDM receiver
..................................78
5.3.3
User multiplexing with DFTS-OFDM
....................79
5.3.4
DFTS-OFDM with spectrum shaping
....................80
5.3.5
Distributed DFTS-OFDM
...............................81
Multi-antenna techniques
83
6.1
Multi-antenna configurations
..................................83
6.2
Benefits of multi-antenna techniques
...........................84
6.3
Multiple receive antennas
.....................................85
6.4
Multiple transmit antennas
....................................90
Contents
6.4.1 Transmit-antenna
diversity...............................
91
6.4.2
Transmitter-side beam-forming
...........................95
6.5
Spatial multiplexing
...........................................98
6.5.1
Basic principles
.........................................99
6.5.2
Pre-coder-based spatial multiplexing
....................102
6.5.3
Non-linear receiver processing
..........................104
7
Scheduling, link adaptation and hybrid ARQ
107
7.1
Link adaptation: Power and rate control
........................108
7.2
Channel-dependent scheduling
................................109
7.2.1
Downlink scheduling
...................................110
7.2.2
Uplink scheduling
.....................................114
7.2.3
Link adaptation and channel-dependent scheduling
in the frequency domain
................................117
7.2.4
Acquiring on channel-state information
..................117
7.2.5
Traffic behavior and scheduling
.........................119
7.3
Advanced retransmission schemes
.............................120
7.4
Hybrid ARQ with soft combining
..............................121
Part III: HSPA
8
WCDMA evolution: HSPA and MBMS
129
8.1
WCDMA: brief overview
.....................................131
8.1.1
Overall architecture
....................................131
8.1.2
Physical layer
.........................................134
8.1.3
Resource handling and packet-data session
...............139
High-Speed Downlink Packet Access
141
9.1
Overview
....................................................141
9.1.1
Shared-channel transmission
............................141
9.1.2
Channel-dependent scheduling
..........................142
9.1.3
Rate control and higher-order modulation
................144
9.1.4
Hybrid ARQ with soft combining
........................144
9.1.5
Architecture
...........................................144
9.2
Details of HSDPA
............................................146
9.2.1
HS-DSCH: inclusion of features in WCDMA Release
5.....146
9.2.2
MAC-hs and physical-layer processing
...................149
9.2.3
Scheduling
............................................151
9.2.4
Rate control
...........................................152
9.2.5
Hybrid ARQ with soft combining
........................155
9.2.6
Data flow
.............................................158
Contents
9.2.7
Resource
control
for HS-DSCH
.........................159
9.2.8
Mobility
..............................................162
9.2.9
UE
categories
.........................................163
9.3
Finer details of HSDPA
.......................................164
9.3.1
Hybrid ARQ revisited: physical-layer processing
..........164
9.3.2
Interleaving and constellation rearrangement
..............168
9.3.3
Hybrid ARQ revisited: protocol operation
................170
9.3.4
In-sequence delivery
...................................171
9.3.5
MAC-hs header
........................................174
9.3.6
CQI and other means to assess the downlink quality
.......175
9.3.7
Downlink control signaling: HS-SCCH
..................178
9.3.8
Downlink control signaling: F-DPCH
....................180
9.3.9
Uplink control signaling: HS-DPCCH
...................181
10
Enhanced Uplink
185
10.1
Overview
..................................................185
10.1.1
Scheduling
.......................................186
10.1.2
Hybrid ARQ with soft combining
...................188
10.1.3
Architecture
......................................189
10.2
Details of Enhanced Uplink
.................................190
10.2.1
MAC-e and physical layer processing
...............193
10.2.2
Scheduling
.......................................195
10.2.3
E-TFC selection
...................................202
10.2.4
Hybrid ARQ with soft combining
...................203
10.2.5
Physical channel allocation
.........................208
10.2.6
Power control
.....................................209
10.2.7
Data flow
.........................................210
10.2.8
Resource control for E-DCH
.......................210
10.2.9
Mobility
..........................................212
10.2.10
UE categories
.....................................212
10.3
Finer details of Enhanced Uplink
.............................213
10.3.1
Scheduling
-
the small print
........................213
10.3.2
Further details on hybrid ARQ operation
.............222
10.3.3
Control signaling
.................................229
11
MBMS: multimedia broadcast multicast services
239
11.1
Overview
..................................................242
11.1.1
Macro-diversity
...................................242
11.1.2
Application-level coding
...........................245
11.2
Details of MBMS
...........................................246
11.2.1
MTCH
...........................................246
11.2.2
MCCH and MICH
................................248
11.2.3
MSCH
...........................................249
Contents ix
12
HSPA
Evolution 251
12.1
MIMO
....................................................251
12.1.1
HSDPA-MIMO
data transmission
...................252
12.1.2
Rate control
for HSDPA-MIMO
....................255
12.1.3
Hybrid ARQ with soft combining for HSDPA-
MIMO
...........................................256
12.1.4
Control signaling for HSDPA-MIMO
...............256
12.1.5
UE capabilities
....................................258
12.2
Higher-order modulation
...................................259
12.3
Continuous packet connectivity
..............................259
12.3.1
DTX
-
reducing uplink overhead
....................261
12.3.2
DRX
-
reducing UE power consumption
.............263
12.3.3
HS-SCCH-less operation: downlink overhead
reduction
.........................................264
12.3.4
Control signaling
.................................266
12.4
Enhanced CELL^FACH operation
...........................266
12.5
Layer
2
protocol enhancements
..............................268
12.6
Advanced receivers
........................................268
12.6.1
Advanced UE receivers specified in 3GPP
............269
12.6.2
Receiver diversity (type
1)...........................270
12.6.3
Chip-level equalizers and similar receivers (type
2).....270
12.6.4
Combination with antenna diversity (type
3)...........271
12.6.5
Interference cancellation
............................272
12.7
Conclusion
................................................273
Part IV: LTE and SAE
13
LTE and SAE: introduction and design targets
277
13.1
LTE design targets
.........................................278
Capabilities
........................................278
System performance
................................279
Deployment-related aspects
..........................281
Architecture and migration
..........................283
Radio resource management
.........................284
Complexity
........................................284
General aspects
.....................................285
13.2
SAE design targets
.........................................285
14
LTE radio access: an overview
289
14.1
Transmission schemes: downlink OFDM and uplink
SC-FDMA
................................................289
14.2
Channel-dependent scheduling and rate adaptation
............290
14.2.1
Downlink scheduling
...............................291
14.2.2
Uplink scheduling
..................................292
13.
1.1
13.
.2
13.
1.3
13.
.4
13.
.5
13.
1.6
13.
1.7
χ
Contents
14.2.3
Inter-cell interference coordination
...................293
14.3
Hybrid ARQ with soft combining
............................294
14.4
Multiple antenna support
...................................294
14.5
Multicast and broadcast support
..............................295
14.6
Spectrum flexibility
.........................................295
14.6.1
Flexibility in duplex arrangement
....................296
14.6.2
Flexibility in frequency-band-of-operation
............297
14.6.3
Bandwidth flexibility
...............................297
15
LTE radio interface architecture
299
15.1
RLC: radio link control
.....................................301
15.2
MAC: medium access control
...............................302
15.2.1
Logical channels and transport channels
..............303
15.2.2
Downlink scheduling
...............................305
15.2.3
Uplink scheduling
..................................307
15.2.4
Hybrid ARQ
.......................................309
15.3
PHY: physical layer
........................................312
15.4
LTE states
.................................................314
15.5
Data flow
.................................................315
16
LTE physical layer
317
16.1
Overall time-domain structure
...............................317
16.2
Downlink transmission scheme
..............................319
16.2.1
The downlink physical resource
......................319
16.2.2
Downlink reference signals
..........................323
16.2.3
Downlink transport-channel processing
...............326
16.2.4
Downlink L1/L2 control signaling
...................333
16.2.5
Downlink multi-antenna transmission
................336
16.2.6
Multicast/broadcast using MBSFN
...................339
16.3
Uplink transmission scheme
................................340
16.3.1
The uplink physical resource
.........................340
16.3.2
Uplink reference signals
.............................344
16.3.3
Uplink transport-channel processing
..................350
16.3.4
Uplink L1/L2 control signaling
......................351
16.3.5
Uplink timing advance
..............................353
17
LTE access procedures
357
17.1
Cell search
................................................357
17.1.1
Cell-search procedure
...............................357
17.1.2
Time/frequency structure of synchronization signals.
... 359
17.1.3
Initial and neighbor-cell search
.......................360
17.2
Random access
............................................361
17.2.1
Step
1 :
Random access preamble transmission
.........363
17.2.2
Step
2:
Random access response
.....................367
17.2.3
Step
3:
Terminal identification
.......................368
Contents xi
17.2.4
Step
4:
Contention resolution
........................368
17.3
Paging
....................................................369
18
System Architecture Evolution
371
18.1
Functional split between radio access network and core
network
...................................................372
18.1.1
Functional split between WCDMA/HSPA radio
access network and core network
.....................372
18.1.2
Functional split between LTE RAN and core
network
...........................................373
18.2
HSPA/WCDMA and LTE radio access network
...............374
18.2.1
WCDMA/HSPA radio access network
................374
18.2.2
LTE radio access network
...........................380
18.3
Core network architecture
...................................382
18.3.1
GSM core network used for WCDMA/HSPA
..........382
18.3.2
The
SAE
core network: the Evolved Packet Core
.....386
18.3.3
WCDMA/HSPA connected to Evolved Packet Core
.....388
Part V: Performance and Concluding Remarks
19
Performance of 3G evolution
393
19.1
Performance assessment
....................................393
19.1.1
End-user perspective of performance
.................394
19.1.2
Operator perspective
................................396
19.2
Performance evaluation of 3G evolution
......................396
19.2.1
Models and assumptions
............................397
19.2.2
Performance numbers for LTE with
5
MHz
FDD carriers
.......................................399
19.3
Evaluation of LTE in 3GPP
.................................402
19.3.1
LTE performance requirements
......................402
19.3.2
LTE performance evaluation
.........................403
19.3.3
Performance of LTE with
20
MHz FDD carrier
........404
19.4
Conclusion
................................................405
20
Other wireless communications systems
407
20.1
UTRA TDD
...............................................407
20.2
CDMA2000
...............................................409
20.2.1
CDMA2000
lx.....................................410
20.2.2 lx
EV-DO Rev
0...................................411
20.2.3 lx
EV-DO Rev A
...................................412
20.2.4 lx
EV-DO Rev
В
...................................413
20.2.5 lx
EV-DO Rev
С
(UMB)
............................414
20.3
GSM/EDGE
...............................................416
20.3.1
Objectives for the GSM/EDGE evolution
.............416
xii Contents
20.3.2
Dual-antenna terminals
..............................418
20.3.3
Multi-carrier EDGE
.................................418
20.3.4
Reduced TTI and fast feedback
......................419
20.3.5
Improved modulation and coding
.....................420
20.3.6
Higher symbol rates
................................421
20.4
WiMAX (IEEE
802.16) ....................................421
20.4.1
Spectrum, bandwidth options and duplexing
arrangement
.......................................423
20.4.2
Scalable OFDMA
..................................424
20.4.3
TDD frame structure
................................424
20.4.4
Modulation, coding and Hybrid ARQ
................424
20.4.5
Quality-of-service handling
..........................425
20.4.6
Mobility
...........................................426
20.4.7
Multi-antenna technologies
..........................427
20.4.8
Fractional frequency reuse
...........................427
20.5
Mobile Broadband Wireless Access (IEEE
802.20)............427
20.6
Summary
.................................................429
21
Future evolution
431
21.1
IMT-Advanced
............................................432
21.2
The research community
....................................433
21.3
Standardization bodies
.....................................433
21.4
Concluding remarks
........................................433
References
435
Index
445
|
| adam_txt |
Contents
List of Figures
xiii
List of Tables
xxiii
Preface
xxv
Acknowledgements
xxvii
List of Acronyms
xxix
Part I: Introduction
1
Background of 3G evolution
3
1.1
History and background of 3G
.3
1.1.1
Before 3G
.3
1.1.2
Early 3G discussions
.5
1.1.3
Research on 3G
.6
1.1.4
3G standardization starts
.7
1.2
Standardization
.7
1.2.1
The standardization process
.7
1.2.2
3GPP
.8
] .2.3
IMT-2000 activities in ITU
.
II
1.3
Spectrum for 3G
.12
2
The motives behind the 3G evolution
17
2.1
Driving forces
.17
2.1.1
Technology advancements
.18
2.1.2
Services
.19
2.1.3
Cost and performance
.21
2.2
3G evolution: two Radio Access Network approaches and
an evolved core network
.23
2.2.1
Radio Access Network evolution
.23
2.2.2
A evolved core network: System Architecture
Evolution
.26
Part II: Technologies for 3G Evolution
3
High data rates in mobile communication
31
3.1
High data rates: fundamental constraints
.31
3.1.1
High data rates in noise-limited scenarios
.33
Contents
3.1.2
Higher data rates in interference-limited scenarios
.35
3.2
Higher data rates within a limited bandwidth: higher-order
modulation
.36
3.2.1
Higher-order modulation in combination with
channel coding
.37
3.2.2
Variations in instantaneous transmit power
.38
3.3
Wider bandwidth including multi-carrier transmission
.39
3.3.
J
Multi-carrier transmission
.41
OFDM transmission
45
4.1
Basic principles of OFDM
.45
4.2
OFDM demodulation
.48
4.3
OFDM implementation using IFFT/FFT processing
.48
4.4
Cyclic-prefix insertion
.51
4.5
Frequency-domain model of OFDM transmission
.53
4.6
Channel estimation and reference symbols
.54
4.7
Frequency diversity with OFDM: importance of channel coding
.55
4.8
Selection of basic OFDM parameters
.57
4.8.1
OFDM
subcarrier
spacing
.57
4.8.2
Number of
subcarriers
.59
4.8.3
Cyclic-prefix length
.59
4.9
Variations in instantaneous transmission power
.60
4.10
OFDM as a user-multiplexing and multiple-access scheme
.6
J
4.11
Multi-cell broadcast/multicast transmission and OFDM
.63
Wider-band 'single-carrier' transmission
67
5.1
Equalization against radio-channel frequency selectivity
.67
5.1.1
Time-domain linear equalization
.68
5.1.2
Frequency-domain equalization
.70
5.1.3
Other equalizer strategies
.73
5.2
Uplink FDMA with flexible bandwidth assignment
.73
5.3
DFT-spread OFDM
.75
5.3.1
Basic principles
.75
5.3.2
DFTS-OFDM receiver
.78
5.3.3
User multiplexing with DFTS-OFDM
.79
5.3.4
DFTS-OFDM with spectrum shaping
.80
5.3.5
Distributed DFTS-OFDM
.81
Multi-antenna techniques
83
6.1
Multi-antenna configurations
.83
6.2
Benefits of multi-antenna techniques
.84
6.3
Multiple receive antennas
.85
6.4
Multiple transmit antennas
.90
Contents
6.4.1 Transmit-antenna
diversity.
91
6.4.2
Transmitter-side beam-forming
.95
6.5
Spatial multiplexing
.98
6.5.1
Basic principles
.99
6.5.2
Pre-coder-based spatial multiplexing
.102
6.5.3
Non-linear receiver processing
.104
7
Scheduling, link adaptation and hybrid ARQ
107
7.1
Link adaptation: Power and rate control
.108
7.2
Channel-dependent scheduling
.109
7.2.1
Downlink scheduling
.110
7.2.2
Uplink scheduling
.114
7.2.3
Link adaptation and channel-dependent scheduling
in the frequency domain
.117
7.2.4
Acquiring on channel-state information
.117
7.2.5
Traffic behavior and scheduling
.119
7.3
Advanced retransmission schemes
.120
7.4
Hybrid ARQ with soft combining
.121
Part III: HSPA
8
WCDMA evolution: HSPA and MBMS
129
8.1
WCDMA: brief overview
.131
8.1.1
Overall architecture
.131
8.1.2
Physical layer
.134
8.1.3
Resource handling and packet-data session
.139
High-Speed Downlink Packet Access
141
9.1
Overview
.141
9.1.1
Shared-channel transmission
.141
9.1.2
Channel-dependent scheduling
.142
9.1.3
Rate control and higher-order modulation
.144
9.1.4
Hybrid ARQ with soft combining
.144
9.1.5
Architecture
.144
9.2
Details of HSDPA
.146
9.2.1
HS-DSCH: inclusion of features in WCDMA Release
5.146
9.2.2
MAC-hs and physical-layer processing
.149
9.2.3
Scheduling
.151
9.2.4
Rate control
.152
9.2.5
Hybrid ARQ with soft combining
.155
9.2.6
Data flow
.158
Contents
9.2.7
Resource
control
for HS-DSCH
.159
9.2.8
Mobility
.162
9.2.9
UE
categories
.163
9.3
Finer details of HSDPA
.164
9.3.1
Hybrid ARQ revisited: physical-layer processing
.164
9.3.2
Interleaving and constellation rearrangement
.168
9.3.3
Hybrid ARQ revisited: protocol operation
.170
9.3.4
In-sequence delivery
.171
9.3.5
MAC-hs header
.174
9.3.6
CQI and other means to assess the downlink quality
.175
9.3.7
Downlink control signaling: HS-SCCH
.178
9.3.8
Downlink control signaling: F-DPCH
.180
9.3.9
Uplink control signaling: HS-DPCCH
.181
10
Enhanced Uplink
185
10.1
Overview
.185
10.1.1
Scheduling
.186
10.1.2
Hybrid ARQ with soft combining
.188
10.1.3
Architecture
.189
10.2
Details of Enhanced Uplink
.190
10.2.1
MAC-e and physical layer processing
.193
10.2.2
Scheduling
.195
10.2.3
E-TFC selection
.202
10.2.4
Hybrid ARQ with soft combining
.203
10.2.5
Physical channel allocation
.208
10.2.6
Power control
.209
10.2.7
Data flow
.210
10.2.8
Resource control for E-DCH
.210
10.2.9
Mobility
.212
10.2.10
UE categories
.212
10.3
Finer details of Enhanced Uplink
.213
10.3.1
Scheduling
-
the small print
.213
10.3.2
Further details on hybrid ARQ operation
.222
10.3.3
Control signaling
.229
11
MBMS: multimedia broadcast multicast services
239
11.1
Overview
.242
11.1.1
Macro-diversity
.242
11.1.2
Application-level coding
.245
11.2
Details of MBMS
.246
11.2.1
MTCH
.246
11.2.2
MCCH and MICH
.248
11.2.3
MSCH
.249
Contents ix
12
HSPA
Evolution 251
12.1
MIMO
.251
12.1.1
HSDPA-MIMO
data transmission
.252
12.1.2
Rate control
for HSDPA-MIMO
.255
12.1.3
Hybrid ARQ with soft combining for HSDPA-
MIMO
.256
12.1.4
Control signaling for HSDPA-MIMO
.256
12.1.5
UE capabilities
.258
12.2
Higher-order modulation
.259
12.3
Continuous packet connectivity
.259
12.3.1
DTX
-
reducing uplink overhead
.261
12.3.2
DRX
-
reducing UE power consumption
.263
12.3.3
HS-SCCH-less operation: downlink overhead
reduction
.264
12.3.4
Control signaling
.266
12.4
Enhanced CELL^FACH operation
.266
12.5
Layer
2
protocol enhancements
.268
12.6
Advanced receivers
.268
12.6.1
Advanced UE receivers specified in 3GPP
.269
12.6.2
Receiver diversity (type
1).270
12.6.3
Chip-level equalizers and similar receivers (type
2).270
12.6.4
Combination with antenna diversity (type
3).271
12.6.5
Interference cancellation
.272
12.7
Conclusion
.273
Part IV: LTE and SAE
13
LTE and SAE: introduction and design targets
277
13.1
LTE design targets
.278
Capabilities
.278
System performance
.279
Deployment-related aspects
.281
Architecture and migration
.283
Radio resource management
.284
Complexity
.284
General aspects
.285
13.2
SAE design targets
.285
14
LTE radio access: an overview
289
14.1
Transmission schemes: downlink OFDM and uplink
SC-FDMA
.289
14.2
Channel-dependent scheduling and rate adaptation
.290
14.2.1
Downlink scheduling
.291
14.2.2
Uplink scheduling
.292
13.
1.1
13.
.2
13.
1.3
13.
.4
13.
.5
13.
1.6
13.
1.7
χ
Contents
14.2.3
Inter-cell interference coordination
.293
14.3
Hybrid ARQ with soft combining
.294
14.4
Multiple antenna support
.294
14.5
Multicast and broadcast support
.295
14.6
Spectrum flexibility
.295
14.6.1
Flexibility in duplex arrangement
.296
14.6.2
Flexibility in frequency-band-of-operation
.297
14.6.3
Bandwidth flexibility
.297
15
LTE radio interface architecture
299
15.1
RLC: radio link control
.301
15.2
MAC: medium access control
.302
15.2.1
Logical channels and transport channels
.303
15.2.2
Downlink scheduling
.305
15.2.3
Uplink scheduling
.307
15.2.4
Hybrid ARQ
.309
15.3
PHY: physical layer
.312
15.4
LTE states
.314
15.5
Data flow
.315
16
LTE physical layer
317
16.1
Overall time-domain structure
.317
16.2
Downlink transmission scheme
.319
16.2.1
The downlink physical resource
.319
16.2.2
Downlink reference signals
.323
16.2.3
Downlink transport-channel processing
.326
16.2.4
Downlink L1/L2 control signaling
.333
16.2.5
Downlink multi-antenna transmission
.336
16.2.6
Multicast/broadcast using MBSFN
.339
16.3
Uplink transmission scheme
.340
16.3.1
The uplink physical resource
.340
16.3.2
Uplink reference signals
.344
16.3.3
Uplink transport-channel processing
.350
16.3.4
Uplink L1/L2 control signaling
.351
16.3.5
Uplink timing advance
.353
17
LTE access procedures
357
17.1
Cell search
.357
17.1.1
Cell-search procedure
.357
17.1.2
Time/frequency structure of synchronization signals.
. 359
17.1.3
Initial and neighbor-cell search
.360
17.2
Random access
.361
17.2.1
Step
1 :
Random access preamble transmission
.363
17.2.2
Step
2:
Random access response
.367
17.2.3
Step
3:
Terminal identification
.368
Contents xi
17.2.4
Step
4:
Contention resolution
.368
17.3
Paging
.369
18
System Architecture Evolution
371
18.1
Functional split between radio access network and core
network
.372
18.1.1
Functional split between WCDMA/HSPA radio
access network and core network
.372
18.1.2
Functional split between LTE RAN and core
network
.373
18.2
HSPA/WCDMA and LTE radio access network
.374
18.2.1
WCDMA/HSPA radio access network
.374
18.2.2
LTE radio access network
.380
18.3
Core network architecture
.382
18.3.1
GSM core network used for WCDMA/HSPA
.382
18.3.2
The
'SAE'
core network: the Evolved Packet Core
.386
18.3.3
WCDMA/HSPA connected to Evolved Packet Core
.388
Part V: Performance and Concluding Remarks
19
Performance of 3G evolution
393
19.1
Performance assessment
.393
19.1.1
End-user perspective of performance
.394
19.1.2
Operator perspective
.396
19.2
Performance evaluation of 3G evolution
.396
19.2.1
Models and assumptions
.397
19.2.2
Performance numbers for LTE with
5
MHz
FDD carriers
.399
19.3
Evaluation of LTE in 3GPP
.402
19.3.1
LTE performance requirements
.402
19.3.2
LTE performance evaluation
.403
19.3.3
Performance of LTE with
20
MHz FDD carrier
.404
19.4
Conclusion
.405
20
Other wireless communications systems
407
20.1
UTRA TDD
.407
20.2
CDMA2000
.409
20.2.1
CDMA2000
lx.410
20.2.2 lx
EV-DO Rev
0.411
20.2.3 lx
EV-DO Rev A
.412
20.2.4 lx
EV-DO Rev
В
.413
20.2.5 lx
EV-DO Rev
С
(UMB)
.414
20.3
GSM/EDGE
.416
20.3.1
Objectives for the GSM/EDGE evolution
.416
xii Contents
20.3.2
Dual-antenna terminals
.418
20.3.3
Multi-carrier EDGE
.418
20.3.4
Reduced TTI and fast feedback
.419
20.3.5
Improved modulation and coding
.420
20.3.6
Higher symbol rates
.421
20.4
WiMAX (IEEE
802.16) .421
20.4.1
Spectrum, bandwidth options and duplexing
arrangement
.423
20.4.2
Scalable OFDMA
.424
20.4.3
TDD frame structure
.424
20.4.4
Modulation, coding and Hybrid ARQ
.424
20.4.5
Quality-of-service handling
.425
20.4.6
Mobility
.426
20.4.7
Multi-antenna technologies
.427
20.4.8
Fractional frequency reuse
.427
20.5
Mobile Broadband Wireless Access (IEEE
802.20).427
20.6
Summary
.429
21
Future evolution
431
21.1
IMT-Advanced
.432
21.2
The research community
.433
21.3
Standardization bodies
.433
21.4
Concluding remarks
.433
References
435
Index
445 |
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| illustrated | Illustrated |
| index_date | 2024-07-02T20:37:47Z |
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| isbn | 012372533X 9780123725332 |
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| spelling | 3G evolution HSPA and LTE for mobile broadband Erik Dahlman .... Repr. Amsterdam [u.a.] Elsevier 2007 XXXV, 448 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index. - Formerly CIP Broadband communication systems / Standards Mobile communication systems / Standards Cellular telephone systems / Standards Zellulares Mobilfunksystem (DE-588)4387563-4 gnd rswk-swf Mobilfunk (DE-588)4170280-3 gnd rswk-swf Mobile Telekommunikation (DE-588)4341131-9 gnd rswk-swf Mobile Telekommunikation (DE-588)4341131-9 s Zellulares Mobilfunksystem (DE-588)4387563-4 s DE-604 Mobilfunk (DE-588)4170280-3 s Dahlman, Erik 1964- Sonstige (DE-588)136118933 oth Digitalisierung UB Augsburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016460500&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | 3G evolution HSPA and LTE for mobile broadband Broadband communication systems / Standards Mobile communication systems / Standards Cellular telephone systems / Standards Zellulares Mobilfunksystem (DE-588)4387563-4 gnd Mobilfunk (DE-588)4170280-3 gnd Mobile Telekommunikation (DE-588)4341131-9 gnd |
| subject_GND | (DE-588)4387563-4 (DE-588)4170280-3 (DE-588)4341131-9 |
| title | 3G evolution HSPA and LTE for mobile broadband |
| title_auth | 3G evolution HSPA and LTE for mobile broadband |
| title_exact_search | 3G evolution HSPA and LTE for mobile broadband |
| title_exact_search_txtP | 3G evolution HSPA and LTE for mobile broadband |
| title_full | 3G evolution HSPA and LTE for mobile broadband Erik Dahlman .... |
| title_fullStr | 3G evolution HSPA and LTE for mobile broadband Erik Dahlman .... |
| title_full_unstemmed | 3G evolution HSPA and LTE for mobile broadband Erik Dahlman .... |
| title_short | 3G evolution |
| title_sort | 3g evolution hspa and lte for mobile broadband |
| title_sub | HSPA and LTE for mobile broadband |
| topic | Broadband communication systems / Standards Mobile communication systems / Standards Cellular telephone systems / Standards Zellulares Mobilfunksystem (DE-588)4387563-4 gnd Mobilfunk (DE-588)4170280-3 gnd Mobile Telekommunikation (DE-588)4341131-9 gnd |
| topic_facet | Broadband communication systems / Standards Mobile communication systems / Standards Cellular telephone systems / Standards Zellulares Mobilfunksystem Mobilfunk Mobile Telekommunikation |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016460500&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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