John.Wiley.and.Sons.HSDPA.HSUPA.for.UMTS

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Title: HSDPA/HSUPA FOR UMTS - High Speed Radio Access for Mobile Communications

Author: Harri Holma and Antti Toskala
PublishDate: 2006
ISBN:
Publisher: John Wiley & Sons
Format: pdf



Contents
Acknowledgements
Abbreviations
1 Introduction
Hurrd Hblma and Antti Toskula
I. 1 WCDMA technology and deploymeat status
1.2 HSPA standardization and deployment schedule
1.3 Radio capability evoIution with HSPA
2 HSPA standardization and background
Anrai Toskalu and Karri Ranta-Aho
2.1 3GPP
2.1.1 WSDPA standardization in 3GPP
2.1.2 HSWA standardization in 3GPP
2.1.3 Further development of HSUPA and HSDPA
2.1.4 Beyond HSDPA and HSUPA
2.2 References
3 HSPA archite-e aad protocols
Anrdi Toskalu and Juho Pirskunen
3.1 Radio resource management architecture
3.1.1 HSDPA and HSUPA user plane protocol architecture
3.1.2 Impact of HSDPA and HSUPA on UTRAN interfaces
3.1.3 Protocol states with HSDPA and HSUPA
3.2 References
4 HSDPA principles
4.1 HSWA vs Rekase 99 DCH
4.2 Key technologies with HSDPA
4.2.1 High-speed downlink shard channel
4.2.2 Hi&-sped shared control channel
4.3 High-speed dedicated physical control channel
4.3.1 Fractional DPCH
4.3.2 HS-DSCH link adaptation
4.3.3 Mobility
4,4 BTS measurements for HSDPA operation
4.5 Terminal capabilities
4.5.1 L1 and RLC throughputs
4.5.2 Iub parameters
4.6 HSDf A MAC layer operation
4.7 References
5 HSUPA principles
5.1 HSUPA vs Rdease 99 DCH
5.2 Key technologies with HSUPA
5.2.1 Int roductjon
5.2.2 Fast EI WARQ for HSUPA
5.2.3 ScheduhgforHSUPA
5.3 E-PCH transport channel and physical charnels
5.3.1 Intrduction
5.3.2 E-DCH transport charnel processing
5.3.3 E-DCH dedicated physical data channel
5.3.4 E-DCW dedicated physical cmnbol channel
5.3.5 E-DCH HARQ indicator channel
5.3.6 E-DCH reIative grant channel
5.3.7 E-DCW absolute grant channel
5.3.8 Motivation and impact of two TTI lengths
5.4 Physical layer procedures
5.4.1 HARQ
5.4.2 HARQ and soft handover
5.4.3 Measurements with WSUPA
5.5 MAC layer
5.5.1 Userplane
5.5.2 MAC-e coatrol message - scheduling information
5.5.3 Selection of a transport format for E-DCH
5.5.4 E-DCH coexistence with DCH
5-55 MAC-d flow-sp&c HARQ parameters
5.5.6 HSUPA scheduling
5.5.7 RSUPA scheduling in soft handover
5.5.8 Advanced WSUPA scheduling
5-5.9 Non-scheduled transmissions
5.6 Iub parameters
5.7 Mobility
5.7.1 Soft handover
5.7.2 Compressed mode
5.8 UE capabilities and data rates
5.9 References and list of related 3GPP specifications
6 Radio resource management
6.1 HSDPA radio resource management
6 1 RNC algorithms
6-1.2 Node B atgoritbs
6.2 HSUPA radio resource management
6.2.1 RNC algorithms
6.2.2 Node B algorithms
6.3 References
7 HSDPA bit ratis, capacity and cweragc
7.1. General performance factors
7.1.1 Essential performance metries
7.2 Single-user performance
7.2-1 Basic modulation and coding performance
7.2.2 HS-DSCH performance
7.2.3 Impact of QPSK-only UEs in early roll-out
7.2.4 HS-SCCH perfonaance
7.2.5 Uplink HS-DPCCH performance
7.2.6 3GPP test methodology
7.3 Multiuser system performance
7.3.1 Simulation methudology
7.3.2 Multiuser diversity gain
7.3 -3 HSDPA-on1 y carrier capacity
7.3.4 HSDPA capacity with Release 99
7.3.5 User data rates
7.3.6 Impact of deployment environment
7.3.7 HSDPA capacity for real time streaming
7.4 Iub transmission efficiency
7.5 Capacity and cost of data delibery
7.6 Round trip time
7.7 HSDPA measurements
7.8 HSDPA performance evolution
7.8.1 Advanced UE receivers
7.8.2 Node B antenna transmit diversity
7.8.3 Node B beamforming
7.8.4 Multiple input multiple output
7.9 Conclusions
7.10 Bibliography
8 HSWA bit rates, colgacity dcaverage
8.1 General performance factors
8.2 Single-user performance
8.3 Cdf capacity
8.3.1 HARQ
8.3.2 Node B scheduling
8.4 HSUPA performance ~ a n ~ m e n t s
8.5 ConcIusions
8 6 Bibliography
9 Application and end-tolend performance
9 I Packet application introduction
9.2 Always-on wnrrectivity
9 2 Packet core and radio connectivity,
9.2.2 Packet sessiun setup
9.2.3 RRC state change
9.2.4 Inter-system celt change from HSPA to GPRS/EGPRS
9.3 Application performane over HSPA
9.3.1 Web browsing
9.3.2 TCP performance
9.3.3 Full duplex VoP and Push-to-Talk
9.3.4 Real time gmhg
9.3.5 Mobile-TV streaming
9.3.6 Push e-mail
9.4 Application performance ~s network load
9.5 References
10 Voiceo\er-LP
0.1 VOIP motivation
10.2 IP header compression
10.3 VoIP over WSPA
10.3.1 HSDPA VoP
10.3.2 HSUPAVoLP
10.3+3 Capacity summary
10.4 References
11 KF requirements of an HSPA t d a l
1 I .I Transmitter requirements
1 Output power
1 I . 1.2 Adjacent charnel leakage ratio
1 1 3 Transmit modulation
1 1.2 Receiver requirements
1 1 -2-1 Sensitivity
1 1.2.2 Adjacent channel selectivity
1 1.2.3 Blocking
1 1.2.4 Inter-modulation
1 1.2.5 Receiver diversity and receiver type.
11.2.6 Maximum input level
1 1.3 Frequency bands and mu1 tiband terminals
1 1.4 References