Heterogeneous cellular networks: theory, simulation, and deployment
"This detailed, up-to-date introduction to heterogeneous cellular networking introduces its characteristic features, the technology underpinning it, and the issues surrounding its use. Comprehensive and in-depth coverage of core topics catalogs the most advanced, innovative technologies used in...
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Cambridge
Cambridge Univ. Press
2013
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Cover Inhaltsverzeichnis |
| Zusammenfassung: | "This detailed, up-to-date introduction to heterogeneous cellular networking introduces its characteristic features, the technology underpinning it, and the issues surrounding its use. Comprehensive and in-depth coverage of core topics catalogs the most advanced, innovative technologies used in designing and deploying heterogenous cellular networks, including system-level simulation and evaluation, self-organization, range expansion, cooperative relaying, network MIMO, network coding, and cognitive radio. Practical design considerations and engineering tradeoffs are also discussed in detail, including handover management, energy efficiency, and interference management techniques. A range of real-world case studies, provided by industrial partners, illustrates the latest trends in heterogenous cellular network development. Written by leading figures from industry and academia, this is an invaluable resource for all researchers and practitioners working in the field of mobile communications"-- |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XXXVII, 460 S. Ill., graf. Darst. |
| ISBN: | 9781107023093 |
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| 245 | 1 | 0 | |a Heterogeneous cellular networks |b theory, simulation, and deployment |c ed. by Xiaoli Chu ... |
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| 300 | |a XXXVII, 460 S. |b Ill., graf. Darst. | ||
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Datensatz im Suchindex
| _version_ | 1804150460256354304 |
|---|---|
| adam_text | Contents
Acknowledgments
Forewords
Preface
List of contributors
Acronyms
page
xvi
xix
xxii
xxvii
xxx
Introduction
Xiaoli
Chu,
David López-Perez,
Fredrik Gunnarsson
and Yang Yang
1.1
Mobile data explosion and capacity needs
1.2
Capacity and coverage solutions
1.2.1
Improving existing macrocell networks
1.2.2
Network base station densification
1.2.3
Indoor capacity and coverage
1.2.4
Heterogeneous cellular networks
1.3
Heterogeneous cellular network nodes
1.3.1
Remote radio heads
1.3.2
Micro base stations
1.3.3
Pico base stations
1.3.4
Femtocell access points
1.3.5
Relay nodes
1.4
3GPP
JTE-Advanced heterogeneous cellular networks
1.5
Heterogeneous cellular network challenges
1.5.1
Optimal network evolution path
1.5.2
Access control
.5.3
Mobility and handover
.5.4
Self-organizing networks
.5.5
Intercell interference
.5.6
Intersite
coordination
.5.7
Energy efficiency
.5.8
Backhaul
References
3
4
4
4
5
5
6
6
6
7
7
7
9
9
10
10
11
12
12
13
Contents
Radio
propagation
modeling
15
Zhihua Lai,
Guillaume Villemaud, Meiling Luo
and jie Zhang
2.1
Introduction
15
2.2
Different
types
of
propagation
model
16
2.2.1
Empirical models
17
2.2.2
Deterministic models
19
2.2.3
Semi-deterministic models
33
2.2.4
Hybrid models
39
2.3
Clutter and terrain
40
2.4
Antenna radiation pattern
41
2.5
Calibration
42
2.6
MIMO
channel models
42
2.6.1
Geometry-based stochastic channel models
44
2.6.2
ЗСРРЅСМ
and WINNER I model
46
2.6.3
WINNER II model
47
2.6.4
COST
259/273/2100
MIMO
channel models
48
2.6.5
Perspectives of channel modeling
51
2.7
Summary and conclusions
52
References
52
System-level simulation and evaluation models
57
David López-Pérez
and Mats
Folke
3.1
Introduction
57
3.2
System-level simulation
58
3.3
Static versus dynamic system-level simulations
59
3.3.1
Static snapshot-based approaches
59
3.3.2
Dynamic event-driven approaches
60
3.4
Building blocks
60
3.4.1
Wrap-around
60
3.4.2
Shadow fading: auto- and cross-correlation
62
3.4.3
Multi-path fading: International Telecommunication Union
(ITU) and Typical Urban
(TU)
models
65
3.4.4
Antenna patterns
68
3.4.5
Signal quality: maximal ratio combining (MRC) and
exponential effective SINR mapping (EESM)
70
3.5
3GPP reference system deployments and evaluation assumptions
71
3.5.1
Homogeneous deployments
72
3.5.2
Heterogeneous deployments
73
3.6
Placing of low-power nodes and users
78
3.6.1
Macrocells overlaid with indoor or outdoor picocells or relays
78
3.6.2
Macrocells overlaid with indoor femtocells
80
3.7
Traffic modeling
82
3.7.1
Full buffer model
82
Contents
3.7.2
FTP model
83
3.7.3
VoIP model
83
3.8
Mobility modeling
83
3.9
Summary and conclusions
84
Copyright notices
84
References
85
Access mechanisms
87
Vikram Chandrasekhar, Anthony E. Ekpenyong and
Ralf Bendlin
4.1
Introduction
87
4.2
Access control modes
87
4.3
Basics ofthe UMTS cellular architecture
88
4.3.1
Core network
89
4.3.2
Access network
89
4.3.3
Radio protocol functions in UTRAN
90
4.4
Basics of the
LTĽ
cellular architecture
92
4.4.1
Evolved Packet Core (EPC)
92
4.4.2
Access network
93
4.4.3
Radio protocol functions in Evolved-UTRAN (E-UTRAN)
94
4.5
LTE Release
8:
mobility management to
CSG
cells
95
4.5.1
Idle mode mobility to and from
CSG
cells
95
4.5.2
Mobility to and from
CSG
cells in RRCXONNECTED mode
97
4.5.3
PCI confusion
97
4.6
LTE Release
9:
mobility enhancements to
CSG
cells and introduction
of
H A
cells
97
4.6.1
Hybrid access
99
4.6.2
Access control, PCI confusion resolution and proximity
indication
99
4.7
LTE Release
10
and beyond: introduction of X2 interface for HeNBs
101
4.8
Distinguishing features of UMTS access mechanisms
101
4.9
Case study of access control in LTE
102
4.9.1
Open access heterogeneous cellular network
103
4.9.2
Closed access heterogeneous cellular network
106
4.10
Conclusions
109
Copyright notices
110
References
110
Interference modeling and spectrum allocation in two-tier networks
111
Tony Q. S. Quek and Marios Kountouris
5.1
Introduction 111
5.2
Interference modeling
113
5.3
System model
117
5.3.1
Two-tier network model
117
Contents
5.3.2 Spectrum
allocation
118
5.3.3
Femtocell
access 1
19
5.3.4
Signal-to-interference
ratio
120
5.4
Downlink success probability
121
5.4.1
Success probabilities with closed access femtocells
121
5.4.2
Success probability with open access femtocells
122
5.5
Two-tier downlink throughput optimization
124
5.5.1
Downlink throughput analysis
124
5.5.2
Network throughput optimization
125
5.5.3
Optimal joint allocation with closed access femtocells
126
5.5.4
Optimal disjoint allocation with closed access femtocells
126
5.5.5
Optimal joint allocation with open access femtocells
128
5.5.6
Optimal disjoint allocation with open access femtocells
129
5.6
Numerical results
129
5.7
Conclusion and future direction
134
5.8
Appendix
134
5.8.1
Derivation of. fn (r)
134
5.8.2
Proof of Lemma
5.1 135
5.8.3
Proof of Lemma
5.2 136
5.8.4
Proof of Lemma
5.4 138
5.8.5
Proof of Lemma
5.5 139
Copyright notice
140
References
140
Self-organization
145
Fredrik Gunnarsson
6.1
Introduction
145
6.2
Management architecture
146
6.3
Self-configuration
147
6.3.1
Planning
148
6.3.2
Installation
149
6.4
Self-optimization
151
6.4.1
Automatic neighbor relation
152
6.4.2
Automatic cell identity management
156
6.4.3
Random access optimization
158
6.4.4
Mobility robustness optimization
161
6.4.5
Mobility load balancing
166
6.4.6
Transmission power tuning
167
6.4.7
Coverage and capacity optimization
169
6.5
Self-healing
170
6.6
Performance monitoring
171
6.6.1
Minimization of drive tests
171
6.6.2
Heterogeneous cellular network monitoring
173
Contents
6.7
Summary and
conclusions
173
References
174
Dynamic interference management
179
Ismail
Guvenç,
Fredrik Gunnarsson
and David
López-Pérez
7.1
Excessive inlercell interference
179
7.1.1
Transmission power difference between nodes
180
7.1.2
Low-power node range expansion
181
7.1.3
Closed subscriber group access
181
7.2
Range expansion
181
7.2.1
Definition of range expansion
182
7.2.2
Downlink/uplink coverage imbalance
183
7.2.3
Behavior of range expansion
184
7.3
Intercell interference coordination
186
7.4
Frequency-domain intercell interference coordination
186
7.4.1
Frequency-domain intercell interference coordination in LTE
187
7.4.2
Carrier-based intercell interference coordination
187
7.4.3
Uplink
interférer
identification
189
7.5
Power-based intercell interference coordination
189
7.5.1
Uplink power-based intercell interference coordination
190
7.5.2
Downlink power-based intercell interference coordination
190
7.6
Time-domain intercell interference coordination
192
7.6.1
Almost blank
subframes
194
7.6.2
Almost blank
subframes
for range-expanded picocells
196
7.6.3
Reduced-power
subframes
and UE interference cancellation
198
7.7
Performance evaluations
199
7.7.1
Power-based and time-domain intercell interference
coordination
199
7.7.2
Performance analysis for time-domain intercell interference
coordination
202
7.7.3
Coverage analysis for time-domain intercell interference
coordination and range expansion
204
7.7.4
Capacity analysis for time-domain intercell interference
coordination and range expansion
206
7.7.5
Reduced-power
ABS
and UE interference cancellation
209
7.8
Summary and conclusions
212
Copyright notices
212
References
213
Uncoordinated femtocell deployments
217
David
López-Pérez, Xiaoli
Chu
and
Holger Claussen
8.1
Introduction
217
8.2
Femtocell market
219
xii Contents
8.3 Femtocell
deployment scenarios
220
8.4
The Small Cell Forum
222
8.5
Backhaul
224
8.6
Synchronization and localization
225
8.7
Interference mitigation in
femtocell
networks
227
8.7.1
Carrier allocation strategies
227
8.7.2
Power-based techniques
231
8.7.3
Antenna-based techniques
236
8.7.4
Load-balancing-based techniques
238
8.7.5
Frequency-based techniques
239
8.8
Summary
241
Copyright notices
241
References
242
9
Mobility and handover management
245
Huaxia Chen, Shengyao Jin, Honglin Hu, Yang Yang, David
López-Pérez,
Ismai!
Giivenç
and
Xiaoli
Chu
9.1
Introduction
245
9.2
Mobility management in RRC-connected state
246
9.2.1
Overview of the handover procedure in LTE systems
247
9.2.2
Handover failures and ping-pongs
254
9.2.3
Improved schemes for mobility management in
RRC-connected state
258
9.3
Mobility management in RRC-idle state
263
9.3.1
Overview of cell selection/reselection procedure
263
9.3.2
Improved schemes for mobility management in
RRC-idle state
266
9.4
Mobility management in heterogeneous cellular networks
272
9.4.1
Range expansion, almost blank
subframes,
and HO
performance
273
9.4.2
HCN mobility performance with 3GPP Release-lOelCIC
276
9.4.3
Mobility-based intercell interference coordination for HCNs
279
9.5
Conclusion
281
Copyright notices
281
References
281
10
Cooperative relaying
284
Jing Xu, Jiang Wang and Ting Zhou
10.1
Relay function
285
10.1.1
AF and DMF relay
285
10.1.2
Throughput comparison
287
10.1.3
Link adaptation of DM
F
relay
289
Contents xiii
10.2
Relay architecture in LTE-Advanced
293
10.2.1
Interface and architecture
293
10.2.2
Protocol stack
295
10.3
Cooperative relaying
298
10.3.1
Introduction
298
10.3.2
Cooperative EF relay
299
10.3.3
Joint network-channel coding for user cooperation
303
10.4
Conclusion
309
Acknowledgment
310
Copyright notices
310
References
310
11
Network
MIMO
techniques
312
Gan Zheng, Yongming Huang and Kai-Kit Wong
11.1
Introduction
312
11.2
General principles of network
MIMO
ЗІЗ
11.2.1
Problems of single-cell processing
313
11.2.2
Advantages of multi-cell processing
314
11.2.3
Capacity results
315
11.2.4
Categories of network
MIMO
318
11.3
Application scenarios of network
MIMO
in HCN
319
11.3.1
Backhaul limit in HCN
321
11.3.2
Clustering mechanism for HCNs
321
11.3.3
CSI
sharing
322
11.4
Distributed downlink coordinated beamforming for macrocell
network
324
11.4.1
System model and problem formulation
324
11.4.2
Distributed multi-cell beamforming based on interference
leakage
326
11.4.3
Distributed multi-cell beamforming based on
max-min SINR
326
11.4.4
Analysis of distributed implementation
333
11.4.5
Simulation results
334
11.5
Downlink coordinated beamforming applications in HCN
337
11.5.1
System model
338
11.5.2
Downlink multi-cell beamforming approaching Pareto
optimality with
max-min
fairness
339
11.5.3
Performance analysis
341
11.5.4
Distributed implementation
344
11.5.5
Simulation results
344
11.6
The road ahead of network
MIMO in
HCN
346
11.7
Summary and conclusions
348
References
348
xiv Contents
12 Network
coding
352
Haishi
Ningând
Cong Ling
12.
1 Introduction
352
12.2
Coding opportunities in heterogenous cellular networks
352
12.2.1
An upper bound on coding gain without geometry
consideration
354
12.2.2
An upper bound on coding gain with geometry consideration
356
12.2.3
Generalized butterfly network
357
12.2.4
Necessary condition tor network coding gain
358
12.2.5
Supporting examples
360
12.3
Efficiency and reliability
364
12.3.1
Issues of
naïve
interference cancellation
367
12.3.2
WNC-based partial interference cancellation strategy
368
12.3.3
Practical considerations
369
12.3.4
Diversity-multiplexing tradeoff analysis
370
12.4
Construction of distributed coding solutions
378
12.5
Summary and conclusion
380
References
381
13
Cognitive radio
383
Miguel
López-Benítez
13.1 Introduction
383
13.2
Cognitive radio techniques
385
13.2.1
Spectrum awareness
386
13.2.2
Spectrum selection
395
13.2.3
Spectrumsharing
399
13.2.4
Spectrum mobility
404
13.2.5
Summary of cognitive radio techniques and cross-layer
design
407
13.3
Application scenarios for cognitive radio in heterogeneous
cellular networks
409
13.3.1
Rural broadband
410
13.3.2
Dynamic
bac
khaul
410
13.3.3
Cognitive ad hoc networks
410
13.3.4
Capacity extension in cellular networks
411
13.3.5
Direct UE-to-UE communication in cellular networks
411
13.3.6
Coordination and cognitive X2 links
412
13.3.7
Cognitive femtocells
412
13.4
Standardization activities: the future of cognitive radio systems
415
13.5
Summary and conclusions
417
References
418
Contents xv
14
Energy-efficient
architectures and techniques
426
Weisi Guo, Min
Chen and Athanasios V.
Vasilakos
14.
1 Introduction
426
14.2
Green cellular projects and metrics
429
14.2.1
Green cellular network projects
429
14.2.2
A taxonomy of green metrics
431
14.2.3
How green are cellular networks?
431
14.3
Fundamental tradeoffs: capacity, energy, and cost
432
14.3.1
Introduction
432
14.3.2
Fundamental energy saving limits
433
14.3.3
Maximum spectral and energy efficiency
433
14.3.4
Maximum cost efficiency
434
14.4
Green cellular network architectures
436
14.4.1
Homogeneous deployment
438
14.4.2
Heterogeneous deployment
438
14.5
Green cellular transmission techniques
443
14.5.1
MIMO
techniques
443
14.5.2
Interference reduction
444
14.5.3
Scheduling
445
14.6
Integrated heterogeneous cellular networks
445
14.6.1
Flexible heterogeneous cellular networks
445
14.6.2
Self-organizing networks
446
14.7
Discussion
447
14.7.1
Standardization of green cellular networks
447
14.7.2
Pricing in green cellular networks
448
14.7.3
New energy and materials
448
14.8
Conclusion
448
Copyright notices
449
References
449
Index
453
|
| any_adam_object | 1 |
| author_GND | (DE-588)103660456X |
| building | Verbundindex |
| bvnumber | BV041086313 |
| classification_rvk | ST 200 ZN 6560 |
| ctrlnum | (OCoLC)854727003 (DE-599)GBV742029328 |
| discipline | Informatik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 1. publ. |
| format | Book |
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| id | DE-604.BV041086313 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:39:16Z |
| institution | BVB |
| isbn | 9781107023093 |
| language | English |
| lccn | 2013006208 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-026063000 |
| oclc_num | 854727003 |
| open_access_boolean | |
| owner | DE-473 DE-BY-UBG DE-11 |
| owner_facet | DE-473 DE-BY-UBG DE-11 |
| physical | XXXVII, 460 S. Ill., graf. Darst. |
| publishDate | 2013 |
| publishDateSearch | 2013 |
| publishDateSort | 2013 |
| publisher | Cambridge Univ. Press |
| record_format | marc |
| spelling | Heterogeneous cellular networks theory, simulation, and deployment ed. by Xiaoli Chu ... 1. publ. Cambridge Cambridge Univ. Press 2013 XXXVII, 460 S. Ill., graf. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index "This detailed, up-to-date introduction to heterogeneous cellular networking introduces its characteristic features, the technology underpinning it, and the issues surrounding its use. Comprehensive and in-depth coverage of core topics catalogs the most advanced, innovative technologies used in designing and deploying heterogenous cellular networks, including system-level simulation and evaluation, self-organization, range expansion, cooperative relaying, network MIMO, network coding, and cognitive radio. Practical design considerations and engineering tradeoffs are also discussed in detail, including handover management, energy efficiency, and interference management techniques. A range of real-world case studies, provided by industrial partners, illustrates the latest trends in heterogenous cellular network development. Written by leading figures from industry and academia, this is an invaluable resource for all researchers and practitioners working in the field of mobile communications"-- Mobilfunk (DE-588)4170280-3 gnd rswk-swf Funknetz (DE-588)4216130-7 gnd rswk-swf Internetworking (DE-588)4225115-1 gnd rswk-swf Mobilfunk (DE-588)4170280-3 s Funknetz (DE-588)4216130-7 s Internetworking (DE-588)4225115-1 s DE-604 Chu, Xiaoli Sonstige (DE-588)103660456X oth http://assets.cambridge.org/97811070/23093/cover/9781107023093.jpg Cover Digitalisierung UB Bamberg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026063000&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Heterogeneous cellular networks theory, simulation, and deployment Mobilfunk (DE-588)4170280-3 gnd Funknetz (DE-588)4216130-7 gnd Internetworking (DE-588)4225115-1 gnd |
| subject_GND | (DE-588)4170280-3 (DE-588)4216130-7 (DE-588)4225115-1 |
| title | Heterogeneous cellular networks theory, simulation, and deployment |
| title_auth | Heterogeneous cellular networks theory, simulation, and deployment |
| title_exact_search | Heterogeneous cellular networks theory, simulation, and deployment |
| title_full | Heterogeneous cellular networks theory, simulation, and deployment ed. by Xiaoli Chu ... |
| title_fullStr | Heterogeneous cellular networks theory, simulation, and deployment ed. by Xiaoli Chu ... |
| title_full_unstemmed | Heterogeneous cellular networks theory, simulation, and deployment ed. by Xiaoli Chu ... |
| title_short | Heterogeneous cellular networks |
| title_sort | heterogeneous cellular networks theory simulation and deployment |
| title_sub | theory, simulation, and deployment |
| topic | Mobilfunk (DE-588)4170280-3 gnd Funknetz (DE-588)4216130-7 gnd Internetworking (DE-588)4225115-1 gnd |
| topic_facet | Mobilfunk Funknetz Internetworking |
| url | http://assets.cambridge.org/97811070/23093/cover/9781107023093.jpg http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026063000&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT chuxiaoli heterogeneouscellularnetworkstheorysimulationanddeployment |