HSDPA/HSUPA for UMTS: High Speed Radio Access for Mobile CommunicationsUMTS 用的 HSDPA/HSUPA: 移动通信高速无线电通路
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作者: Harri Holma,Antti Toskala著
出 版 社:
出版时间: 2006-6-1字数:版次: 1页数: 245印刷时间: 2006/06/01开本: 16开印次: 1纸张: 胶版纸I S B N : 9780470018842包装: 精装内容简介
From the editors of the highly successful WCDMA for UMTS, this new book provides a comprehensive and up-to-date reference to High Speed Packet Access (HSPA) technologies for WCDMA. The editors cover both HSDPA and HSUPA, including an in-depth description and explanation of 3GPP standards, and expected performance based on simulations and first measurements. The text also discusses the impact of HSDPA and HSUPA on network dimensioning, covers applications and end-to-end performance in detail, and includes a section on radio frequency requirements and terminal design considerations.
作者简介
Dr. Harri Holma is Principal Engineer at Nokia Networks, with special focus on UMTS/HSDPA performance. He has been with Nokia since 1994. Dr. Holma co-edited the book WCDMA for UMTS’ and completed his PhD on UMTS performance at Helsinki University of Technology.
目录
Preface
Acknowledgements
Abbreviations
1Introduction
1.1WCDMA technology and deployment status
1.2HSPA standardization and deployment schedule
1.3Radio capability evolution with HSPA
2HSPA standardization and background
2.13GPP
2.1.1HSDPA standardization in 3GPP
2.1.2HSUPA standardization in 3GPP
2.1.3Further development of HSUPA and HSDPA
2.1.4Beyond HSDPA and HSUPA
2.2References
3HSPA architecture and protocols
3.1Radio resource management architecture
3.1.1HSDPA and HSUPA user plane protocol architectu
3.1.2Impact of HSDPA and HSUPA on UTRAN interfa
3.1.3Protocol states with HSDPA and HSUPA
3.2References
4HSDPA principles
4.1HSDPA vs Release 99 DCH
4.2Key technologies with HSDPA
4.2.1High-speed downlink shared channel
4.2.2High-speed shared control channel
4.3High-speed dedicated physical control channel
4.3.1Fractional DPCH
4.3.2HS-DSCH link adaptation
4.3.3Mobility
4.4BTS measurements for HSDPA operation
4.5Terminal capabilities
4.5.1LI and RLC throughputs
4.5.2Iub parametersi
4.6HSDPA MAC layer operation
4.7References
5HSUPA principles
5.1HSUPA vs Release 99 DCH
5.2Key technologies with HSUPA
5.2.1Introduction
5.2.2Fast Li HARQ for HSUPA
5.2.3Scheduling for HSUPA
5.3E-DCH transport channel and physical channels
5.3.1Introduction
5.3.2E-DCH transport channel processing
5.3.3E-DCH dedicated physical data channel
5.3.4E-DCH dedicated physical control channel
5.3.5E-DCH HARQ indicator channel
5.3.6E-DCH relative grant channel
5.3.7E-DCH absolute grant channel
5.3.8Motivation and impact of two TTI lengths
5.4Physical layer procedures
5.4.1HARQ
5.4.2HARQ and soft handover
5.4.3Measurements with HSUPA
5.5MAC layer
5.5.1User plane
5.5.2MAC-e control message - scheduling information
5.5.3Selection of a transport format for E-DCH
5.5.4E-DCH coexistence with DCH
5.5.5MAC-d flow-specific HARQ parameters
5.5.6HSUPA scheduling
5.5.7HSUPA scheduling in soft handover
5.5.8Advanced HSUPA scheduling
5.5.9 Non-scheduled transmissions
5.6Iub parameters
5.7Mobility
6. Radio resource management
7. HSDPA bit rates, capacity and coverage
8. HSUPA bit rates, capacity and coverage
9. Application and end-to-end performance
10. Voice-over-IP
11. RF requirements of an HSPA terminal
Index
