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El. knyga: Radio Protocols for LTE and LTE-Advanced

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  • Formatas: EPUB+DRM
  • Išleidimo metai: 23-Aug-2012
  • Leidėjas: John Wiley & Sons Inc
  • Kalba: eng
  • ISBN-13: 9781118188569
Kitos knygos pagal šią temą:
Radio Protocols for LTE and LTE-AdvancedDidesnis paveikslėlis
  • Formatas: EPUB+DRM
  • Išleidimo metai: 23-Aug-2012
  • Leidėjas: John Wiley & Sons Inc
  • Kalba: eng
  • ISBN-13: 9781118188569
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Provides a unique focus on radio protocols for LTE and LTE-Advanced (LTE-A)

Giving readers a valuable understanding of LTE radio protocols, this book covers LTE (Long-Term Evolution) Layer 2/3 radio protocols as well as new features including LTE-Advanced. It is divided into two sections to differentiate between the two technologies’ characteristics. The authors systematically explain the design principles and functions of LTE radio protocols during the development of mobile handsets. The book also provides essential knowledge on the interaction between mobile networks and mobile handsets.

  • Among the first publications based on the 3GPP R10 specifications, which introduces LTE-A
  • Beginning with an overview of LTE, topics covered include: Idle Mode Procedure; Packet Data Convergence Protocol and Public Warning Systems
  • Presents the LTE radio interface protocol layers in a readable manner, to enhance the material in the standards publications
  • From an expert author team who have been directly working on the 3GPP standards

It is targeted at professionals working or intending to work in the area and can also serve as supplementary reading material for students who need to know how theory on the most extensively used mobile radio interface today is put into practice

Foreword xiii
Takehiro Nakamura
Preface xv
About the Authors xvii
1 Introduction
1(26)
1.1 3GPP
1(3)
1.2 Evolutionary Path of 3GPP Systems
4(6)
1.2.1 GSM
4(2)
1.2.2 GPRS/EDGE
6(1)
1.2.3 UMTS
7(1)
1.2.4 HSPA
8(1)
1.2.5 LTE
9(1)
1.3 Market Trend
10(1)
1.4 Requirement of LTE
11(3)
1.5 Overview of LTE Architecture
14(10)
1.5.1 Network Architecture
14(4)
1.5.2 QoS Architecture
18(3)
1.5.3 Radio Protocol Architecture of LTE
21(3)
1.6 UE Capabilities
24(3)
References
26(1)
2 Idle Mode Procedure
27(20)
2.1 Idle Mode Functions
27(2)
2.2 Services and Cell Categorization
29(1)
2.3 UE States and State Transitions
30(1)
2.4 PLMN Selection
31(3)
2.4.1 Triggering of PLMN Selection
32(1)
2.4.2 Search of Available PLMNs
32(1)
2.4.3 PLMN Selection
32(2)
2.5 Location Registration
34(1)
2.6 Cell Selection
34(2)
2.6.1 Cell Selection Criterion
35(1)
2.6.2 Cell Selection upon RRC Connection Release
36(1)
2.7 Cell Reselection
36(7)
2.7.1 Measurement Rules
37(2)
2.7.2 Reselection to a Neighboring Cell
39(2)
2.7.3 Mobility State Dependent Scaling
41(2)
2.8 Access Verification
43(1)
2.8.1 Cell Barring Status and Cell Reservation Status
43(1)
2.9 Paging Reception
44(3)
References
45(2)
3 Radio Resource Control (RRC)
47(40)
3.1 RRC Functions and Architecture
48(2)
3.2 System Information
50(5)
3.2.1 Scheduling of System Information
50(4)
3.2.2 System Information Update
54(1)
3.3 Paging
55(1)
3.4 Connection Establishment
56(4)
3.4.1 Step 1: Access Class Barring
57(1)
3.4.2 Step 2: Transmission of the RRCConneetionRequest Message
58(1)
3.4.3 Step 3: Receipt of the RRCConnectionSetup Message
59(1)
3.4.4 Step 4: Transmission of the RRC Connection Setup Complete Message
59(1)
3.5 Security
60(3)
3.6 RRC Connection Reconfiguration
63(2)
3.6.1 SRB2 Establishment
63(1)
3.6.2 DRB Establishment
63(1)
3.6.3 Parallel Procedure with Security Activation
64(1)
3.7 UE Capability Transfer
65(1)
3.8 Intra-EUTRA Handover
65(7)
3.8.1 Handover Preparation
66(3)
3.8.2 Handover Execution
69(2)
3.8.3 Handover Completion
71(1)
3.9 Measurement Control
72(3)
3.9.1 Measurement Configuration
73(1)
3.9.2 Measurement Report Triggering
74(1)
3.9.3 Measurement Reporting
75(1)
3.10 RRC Connection Re-establishment
75(3)
3.11 Inter-RAT Mobility
78(6)
3.11.1 Inter-RAT Mobility from/to 3GPP Access Systems
78(4)
3.11.2 Inter-RAT Mobility from/to CDMA2000 Systems
82(2)
3.12 RRC Connection Release
84(3)
Reference
85(2)
4 Packet Data Convergence Protocol (PDCP)
87(14)
4.1 PDCP Functions and Architecture
87(2)
4.2 Header Compression
89(2)
4.3 Security
91(2)
4.3.1 Integrity Protection
91(1)
4.3.2 Ciphering
92(1)
4.4 Data Transfer
93(1)
4.5 SDU Discard
94(1)
4.6 Handover
95(4)
4.6.1 SRB Behavior at Handover
95(1)
4.6.2 UM DRB Behavior at Handover
95(2)
4.6.3 AM DRB Behavior at Handover
97(2)
4.7 PDCP PDU Formats
99(2)
4.7.1 PDCP Data PDU Formats
99(1)
4.7.2 PDCP Control PDU Formats
100(1)
Reference
100(1)
5 Radio Link Control (RLC)
101(18)
5.1 RLC Functions and Architecture
101(4)
5.1.1 Transparent Mode (TM) RLC
101(1)
5.1.2 Unacknowledged Mode (UM) RLC
102(1)
5.1.3 Acknowledged Mode (AM) RLC
103(2)
5.2 Framing
105(1)
5.3 Reordering
106(2)
5.4 ARQ Operation
108(4)
5.4.1 Polling
108(1)
5.4.2 Status Reporting
109(1)
5.4.3 Retransmission
110(1)
5.4.4 Re-segmentation
111(1)
5.5 Window Operation
112(1)
5.5.1 UM RLC Window Operation
112(1)
5.5.2 AM RLC Window Operation
113(1)
5.6 SDU Discard
113(1)
5.7 RLC Re-establishment
114(1)
5.8 RLC PDU Formats
114(5)
5.8.1 TMD PDU Format
114(1)
5.8.2 UMD PDU Format
115(1)
5.8.3 AMD PDU Format
115(1)
5.8.4 AMD PDU Segment Format
116(1)
5.8.5 Status PDU Format
117(1)
Reference
117(2)
6 Medium Access Control (MAC)
119(32)
6.1 MAC Functions and Services
119(1)
6.2 MAC Architecture
120(1)
6.3 MAC Channels and Mapping
121(2)
6.3.1 Transport Channels
121(1)
6.3.2 Logical Channels
122(1)
6.3.3 Channel Mapping
123(1)
6.4 Scheduling
123(4)
6.4.1 Dynamic Scheduling
124(1)
6.4.2 Semi-Persistent Scheduling (SPS)
124(3)
6.5 Scheduling Information Delivery
127(3)
6.5.1 Buffer Status Reporting (BSR)
127(2)
6.5.2 Scheduling Request (SR)
129(1)
6.5.3 Power Headroom Report (PHR)
130(1)
6.6 Logical Channel Prioritization (LCP)
130(4)
6.7 Discontinuous Reception (DRX)
134(4)
6.8 Hybrid-ARQ (HARQ)
138(5)
6.8.1 HARQ in the Uplink
140(1)
6.8.2 HARQ in the Downlink
140(1)
6.8.3 Bundling
140(2)
6.8.4 Measurement Gap
142(1)
6.9 Random Access (RA) Procedure
143(2)
6.10 Time Alignment
145(1)
6.11 MAC PDU Formats
146(5)
6.11.1 MAC Control Elements (CEs)
148(1)
6.11.2 MAC PDU for Random Access Response
149(1)
Reference
149(2)
7 Overview of LTE and LTE-Advanced New Features
151(8)
7.1 Voice over LTE (VoLTE)
151(1)
7.2 Home eNB (HeNB)
152(1)
7.3 Public Warning System (PWS)
153(1)
7.4 Multimedia Broadcast/Multicast Service (MBMS)
153(1)
7.5 Carrier Aggregation (CA)
154(1)
7.6 Relay
155(1)
7.7 Minimization of Drive Test (MDT)
156(1)
7.8 Enhanced Inter-Cell Interference Coordination (eICIC)
156(1)
7.9 Machine Type Communication (MTC)
157(2)
8 Voice over LTE (VoLTE)
159(26)
8.1 Voice Solutions for LTE
159(3)
8.1.1 Ultimate Voice Solution
159(1)
8.1.2 Interim Voice Solutions
160(2)
8.2 IMS VoIP
162(5)
8.2.1 IMS Profile
162(2)
8.2.2 Single Radio Voice Call Continuity (SRVCC)
164(3)
8.3 Circuit-Switched Fallback (CSFB)
167(11)
8.3.1 CSFB to UTRAN or GERAN
168(5)
8.3.2 CSFB to CDMA2000 1xRTT
173(5)
8.4 Service Domain Selection
178(3)
8.4.1 UE Decision between IMS VoIP and CSFB
180(1)
8.5 Comparison between IMS VoIP and CSFB
181(1)
8.6 RAN Optimization for VoIP
181(4)
8.6.1 Robust Header Compression (ROHC)
182(1)
8.6.2 TTI Bundling
182(1)
8.6.3 Semi-Persistent Scheduling for HARQ
183(1)
References
183(2)
9 Home eNB (HeNB)
185(20)
9.1 Architectural Framework
186(3)
9.1.1 Access Mode
186(1)
9.1.2 Use Cases
187(1)
9.1.3 High-level Requirements
188(1)
9.1.4 Network Architecture
189(1)
9.2 CSG Provisioning
189(1)
9.2.1 CSG Subscription Data
190(1)
9.2.2 CSG Member Status
190(1)
9.3 System Information Related to CSG
190(3)
9.3.1 CSG Identification Information
191(1)
9.3.2 CSG Cell Deployment Information
192(1)
9.4 Identification of CSG
193(1)
9.4.1 Autonomous CSG Search
193(1)
9.4.2 Manual CSG Selection
193(1)
9.5 Mobility with CSG Cells
194(6)
9.5.1 Mobility in RRC_IDLE
194(2)
9.5.2 Mobility in RRC_Connected
196(4)
9.6 Support for Hybrid Cells
200(5)
9.6.1 Motivation
200(1)
9.6.2 Features
201(2)
References
203(2)
10 Public Warning System (PWS)
205(12)
10.1 Warning System Architecture
206(1)
10.2 Warning Messages
207(2)
10.3 Delivery of Warning Messages on a Network
209(3)
10.3.1 Warning Message Delivery Procedure
209(2)
10.3.2 Warning Message Cancel Procedure
211(1)
10.4 Delivery of Warning Messages over the Radio Interface
212(5)
10.4.1 PWS Notifications in System Information
213(1)
10.4.2 Indication of PWS Notifications in Paging
214(1)
10.4.3 Segmentation of Warning Messages
214(1)
References
215(2)
11 Multimedia Broadcast/Multicast Service (MBMS)
217(20)
11.1 MBMS Services
217(1)
11.2 Architecture and Functions for MBMS
218(3)
11.3 MBSFN Transmissions
221(1)
11.4 Radio Protocols for MBMS
222(4)
11.4.1 Layers 1 and 2 for MBMS
222(2)
11.4.2 Layer 3 for MBMS
224(2)
11.5 MBMS Procedures
226(6)
11.5.1 MBMS Session Start
226(2)
11.5.2 MCCH Information Acquisition and MRB Configuration
228(1)
11.5.3 MBMS Session Update
229(1)
11.5.4 MBMS Session Stop
230(1)
11.5.5 MRB Release
231(1)
11.6 MBMS Enhancements in Releases 10 and 11
232(5)
11.6.1 MBMS Counting
232(2)
11.6.2 MBMS Service Continuity
234(1)
References
235(2)
12 Carrier Aggregation (CA)
237(24)
12.1 Spectrum and Deployment Scenarios
240(3)
12.1.1 Spectrum Scenarios
240(1)
12.1.2 Deployment Scenarios
241(2)
12.2 Cell Management
243(8)
12.2.1 PCell and SCell
243(1)
12.2.2 Signaling of Configuration Information
244(1)
12.2.3 Linkages and References
244(1)
12.2.4 Cross-Carrier Scheduling
245(2)
12.2.5 Extended Measurements
247(3)
12.2.6 SCell Management
250(1)
12.2.7 Mobility with Carrier Aggregation
250(1)
12.3 Extended MAC Functions
251(10)
12.3.1 SCell Activation and Deactivation
251(2)
12.3.2 Power Headroom Reporting (PHR)
253(3)
12.3.3 Logical Channel Prioritization (LCP)
256(1)
12.3.4 Buffer Status Report (BSR)
257(1)
12.3.5 Discontinuous Reception (DRX)
258(1)
12.3.6 Semi-Persistent Scheduling (SPS)
258(1)
References
259(2)
13 Relay
261(16)
13.1 Deployment Scenarios
261(1)
13.2 Network Architecture for the Relay Node
262(2)
13.3 Types of Relay Node
264(3)
13.3.1 Layer Performing Relaying
264(2)
13.3.2 Frequency Separation of Uu and Un Links
266(1)
13.4 Relay Node-Specific Operation
267(5)
13.4.1 Bearer Mapping
267(1)
13.4.2 Integrity Protection for a UnDRB
268(2)
13.4.3 RN Subframe Configuration
270(1)
13.4.4 Update of System Information
271(1)
13.4.5 RN Reconfiguration Procedure
271(1)
13.5 Relay Node Start-Up Procedure
272(2)
13.6 Simplified Operation of Release 10 Relay Node
274(3)
References
275(2)
14 Minimization of Driving Test (MDT)
277(16)
14.1 Architectural Framework
278(3)
14.1.1 Use Cases
279(1)
14.1.2 Initiation of the MDT Task with UE Selection
280(1)
14.1.3 Collection of MDT Measurement Results
281(1)
14.2 Logged MDT
281(8)
14.2.1 Configuration Phase
283(1)
14.2.2 Logging Phase
284(2)
14.2.3 Reporting Phase
286(3)
14.3 Immediate MDT
289(4)
14.3.1 Configuration Phase
290(1)
14.3.2 Measurement and Evaluation Phase
291(1)
14.3.3 Reporting Phase
291(1)
14.3.4 MDT Context Transfer
291(1)
References
292(1)
15 Enhanced Inter-Cell Interference Coordination (eICIC)
293(12)
15.1 Heterogeneous Network Deployment
293(5)
15.1.1 Interference in Heterogeneous Networks
295(1)
15.1.2 Limitation of Frequency Domain ICIC
296(2)
15.2 CA-based ICIC
298(1)
15.3 Time Domain ICIC
299(6)
15.3.1 Restricted Measurements
300(1)
15.3.2 Macro-Pico Cell Scenario
301(2)
15.3.3 Macro-Femto Cell Scenario
303(1)
15.3.4 Network Configuration
303(1)
References
304(1)
16 Machine Type Communication (MTC)
305(8)
16.1 Overload Control for MTC
305(6)
16.1.1 Overload Control in Release 8
306(1)
16.1.2 Core Network Overload Control in Release 10
307(3)
16.1.3 RAN Overload Control in Release 11
310(1)
16.2 MTC Features in 3GPP
311(2)
References
312(1)
Index 313
SeungJune Yi, LG Electronics, South Korea

SungDuck Chun, LG Electronics, South Korea

YoungDae Lee, LG Electronics, South Korea

SungJun Park, LG Electronics, South Korea

SungHoon Jung, LG Electronics, South Korea
Daugiau apie elektronines knygas Daugiau apie elektronines knygas
Pastovi nuoroda: https://www.kriso.lt/db/97811181885696e.html
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