- Page 11 and 12: Quality of service (QoS). By priori
- Page 13: Figure 4: WCDMA-HSPA Voice and Data
- Page 16 and 17: It is clear that both EDGE and UMTS
- Page 18: TechnologyNameType Characteristics
- Page 21 and 22: Europe are providing operators with
- Page 23 and 24: MHz, in Japan at 1500 MHz and in Eu
- Page 25 and 26: and VoIP operation. These approache
- Page 27 and 28: will be able to build applications
- Page 29 and 30: Leveraging this success, operators
- Page 31 and 32: VoIP for HSPA. Since LTE uses an IP
- Page 33 and 34: Figure 10: Different Deployment Sce
- Page 35 and 36: Figure 11: Radio Resource Managemen
- Page 37 and 38: IEEE 802.16e-2005 and now IEEE 802.
- Page 39 and 40: attempts, no terrestrial wireless-d
- Page 41 and 42: DownlinkPeakNetworkSpeedPeakand/orT
- Page 43 and 44: DownlinkUplinkPeakNetworkSpeedPeaka
- Page 45 and 46: Figure 13: HSDPA Performance of a 7
- Page 47 and 48: Figure 15: HSPA+ Performance Measur
- Page 49 and 50: Figure 17: LTE Throughput in Variou
- Page 51 and 52: Figure 19: Latency of Different Tec
- Page 53 and 54:
Figure 20: Performance Relative to
- Page 55 and 56:
Figure 21: Comparison of Downlink S
- Page 57 and 58:
Incremental redundancy in error cor
- Page 59 and 60:
Figure 23: Comparison of Voice Spec
- Page 61 and 62:
Figure 24: Relative Volume of Subsc
- Page 63 and 64:
Technology EDGE/HSPA/LTE CDMA2000 W
- Page 65 and 66:
capacity of OFDMA-based approaches
- Page 67 and 68:
In this section, we consider differ
- Page 69 and 70:
To understand the evolution of data
- Page 71 and 72:
how EDGE functions including networ
- Page 73 and 74:
Alternatively, the original number
- Page 75 and 76:
In today’s EDGE systems, f12 thro
- Page 77 and 78:
DAS-9 16 QAM 217.6DAS-10 32 QAM 262
- Page 79 and 80:
Operators can also use their entire
- Page 81 and 82:
HSDPAHSPA refers to networks that s
- Page 83 and 84:
Figure 33: User DiversitySignal Qua
- Page 85 and 86:
Initial devices enabled peak user r
- Page 87 and 88:
“single-stream MIMO” or “MIMO
- Page 89 and 90:
Given the large amount of backhaul
- Page 91 and 92:
connection between the network and
- Page 93 and 94:
Figure 39: HSPA One-Tunnel Architec
- Page 95 and 96:
Figure 40: High-Speed Forward Acces
- Page 97 and 98:
elatively straightforward changes i
- Page 99 and 100:
on LTE began in 2004 with an offici
- Page 101 and 102:
Figure 45: LTE OFDMA Downlink Resou
- Page 103 and 104:
Single base-station antenna versus
- Page 105 and 106:
TX antennas and most devices will o
- Page 107 and 108:
Figure 48: Evolution of Voice in an
- Page 109 and 110:
Table 19: IMT-Advanced Requirements
- Page 111 and 112:
Beyond wider bandwidths, LTE-Advanc
- Page 113 and 114:
As discussed in more detail in the
- Page 115 and 116:
Different technologies spanning Wi-
- Page 117 and 118:
stations, and because of the narrow
- Page 119 and 120:
Support for new radio-access networ
- Page 121 and 122:
AbbreviationsThe following abbrevia
- Page 123 and 124:
GBR - Guaranteed Bit RateGbyte - Gi
- Page 125 and 126:
PHY - Physical LayerPMI - Precoding
- Page 127 and 128:
Additional Information3G Americas m
- Page 129 and 130:
Ericsson: HSPA voice migration, Jun
- Page 131 and 132:
SNL Kagan: press release, “SNL Ka