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www.4gamericas.org February 2011 Pa
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7.3.1 Home NodeB/eNodeB enhancement
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D.2 TARGET REQUIREMENTS FOR 3GPP LT
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downlink throughput of up to 21 Mbp
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eceivers. Examples of advanced rece
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1 INTRODUCTION Wireless data usage
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2 PROGRESS OF RELEASE 99, RELEASE 5
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HSDPA network in February, followed
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download speeds of up to 8 Mbps aim
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Since around 2005, some research fi
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As operators evolve their networks
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One of key elements of the LTE/SAE
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In 2008, a top vendor unveiled the
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3 PLANS FOR RELEASE 9 AND RELEASE 1
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4 THE GROWING DEMANDS FOR WIRELESS
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to address network congestion issue
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U.S. This represents a 151 percent
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accounted for 12 percent of total r
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various mobile data services have o
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devices to turn them into full-fled
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spectrum for mobile broadband use.
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MME S1-MME S11 eNode IP GW S1-U Fig
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Figure 5.2. Example of Semi-Persist
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ideas for potential technologies an
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6.2 THE 3GPP ROLE Figure 6.1. Progr
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7 STATUS OF RELEASE 10: HSPA+ ENHAN
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Figure 7.2. An Illustration of NxDF
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LTE-Advanced will extend the downli
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complexity but it may also be used
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to in 3GPP. 117 The simulation scen
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To enhance the measurement accuracy
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enables the base station to schedul
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These two advantages are illustrate
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Local IP Access provides access for
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7.3.3 FIXED MOBILE CONVERGENCE ENHA
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PCC, so the 3GPP intends to first a
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The study is concluded in 3GPP Rel-
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The decision to anchor media at the
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7.3.9 IP‐SHORT‐MESSAGE‐GATEWA
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E-UTRA CA Band E-UTRA operating Ban
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optimized proprietary receiver tran
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8.2.1.3 DL COMP In terms of downlin
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8.2.2 CARRIER AGGREGATION Figure 8.
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2-TX antennas Figure 8.5. Uplink Du
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- Page 95 and 96: 9 CONCLUSIONS Wireless data usage c
- Page 97 and 98: Communications Research demo lab in
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- Page 107 and 108: conducted with the 4G mobile techno
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- Page 111 and 112: APPENDIX B: UPDATE OF RELEASE 9 STA
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- Page 115 and 116: B.2.1.4 PDN GW SELECTION FUNCTION (
- Page 117 and 118: The subscribers of participating CM
- Page 119 and 120: 3GPP TS 29.168. Cell Broadcast Cent
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- Page 123 and 124: CELL ID METHOD This is the simplest
- Page 125 and 126: Figure B.4. 1xRTT CSFB Architecture
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- Page 129 and 130: o Includes concurrent 1xRTT and HRP
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- Page 133 and 134: Figure B.7. Phases of MBMS Broadcas
- Page 135 and 136: B.2.6 SELF‐ORGANIZING NETWORKS (S
- Page 137 and 138: cross-talk suppression. The downlin
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- Page 147 and 148: Table C.2. Cell Edge User Spectral
- Page 149 and 150: C.1.7 HANDOVER The handover interru
- Page 151 and 152: APPENDIX D: LTE‐ADVANCED AND SELF
- Page 153 and 154: 2 Linked work items (list of linked
- Page 155 and 156: d) To develop documents that will s
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- Page 159 and 160: Uplink peak spectrum efficiency •
- Page 161 and 162: Cell‐average and Cell‐edge spec
- Page 163 and 164: Cell‐average and Cell‐edge spec
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- Page 167 and 168: APPENDIX F: THE ITU‐R IMT‐ADVAN
- Page 169 and 170: ITU-R Outside ITU-R Step 1 Circular
- Page 171 and 172: APPENDIX G: GLOBAL HSPA & HSPA+ DEP
- Page 173 and 174: Africa Réunion SFR Reunion In Serv
- Page 175 and 176: Latin America & Caribbean Jamaica C
- Page 177 and 178: Asia Pacific Malaysia DiGi (Telenor
- Page 179 and 180: Eastern Europe Czech Republic Mobil
- Page 181 and 182: Eastern Europe Slovenia T‐2 In De
- Page 183 and 184: Western Europe Liechtenstein mobilk
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- Page 187 and 188: Latin America Colombia UNE Planned
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Western Europe Andorra STA Planned
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Middle East Saudi Arabia Etihad Eti
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C/I Carrier to Interference Ratio (
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FER Frame Erasure Rate FFR Fraction
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LI Lawful Intercept LIPA Local Inte
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PHICH Physical Hybrid ARQ Indicator
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TAU Target Acquisition and tracking
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ACKNOWLEDGMENTS The mission of 4G A