HSPA+ Evolution to release 12 : performance and optimization

HSPA+ Evolution to release 12 : performance and optimization / edited by Harri Holma, Antti Toskala, Pablo Tapia.

"A comprehensive reference book codifying the various standards releases for High Speed Packet Access (HSPA) wireless technologyHSPA evolution has maintained its prominence through Releases 7-11 but the evolution is coming to an end with Release 12, with the focus moving to LTE. However, HSPA n...

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Bibliographic Details
Other Authors: Holma, Harri, 1970-, Toskala, Antti, Tapia, Pablo
Format: eBook
Language:English
Published: Chichester, West Sussex, United Kingdom : Wiley, 2014.
Subjects:
Packet switching (Data transmission)
Network performance (Telecommunication)
Radio > Packet transmission.
TECHNOLOGY & ENGINEERING > Mobile & Wireless Communications.
Radio > Packet transmission
Online Access:Click for online access
Table of Contents:
  • HSPA+ Evolution to Release 12; Contents; Foreword; Preface; Acknowledgments; Abbreviations; 1 Introduction; 1.1 Introduction; 1.2 HSPA Global Deployments; 1.3 Mobile Devices; 1.4 Traffic Growth; 1.5 HSPA Technology Evolution; 1.6 HSPA Optimization Areas; 1.7 Summary; 2 HSDPA and HSUPA in Release 5 and 6; 2.1 Introduction; 2.2 3GPP Standardization of HSDPA and HSUPA; 2.3 HSDPA Technology Key Characteristics; 2.4 HSDPA Mobility; 2.5 HSDPA UE Capability; 2.6 HSUPA Technology Key Characteristics; 2.7 HSUPA Mobility; 2.8 HSUPA UE Capability; 2.9 HSPA Architecture Evolution; 2.10 Conclusions.
  • 4 Continuous Packet Connectivity and High Speed Common Channels4.1 Introduction; 4.2 Continuous Packet Connectivity (CPC); 4.2.1 Uplink DTX; 4.2.2 Downlink DRX; 4.2.3 HS-SCCH-Less Transmission; 4.3 High Speed FACH; 4.4 High Speed RACH; 4.5 High Speed FACH and RACH Enhancements; 4.6 Fast Dormancy; 4.7 Uplink Interference Reduction; 4.8 Terminal Power Consumption Minimization; 4.9 Signaling Reduction; 4.10 Latency Optimization; 4.11 Summary; References; 5 HSDPA Multiflow; 5.1 Introduction; 5.2 Multiflow Overview; 5.2.1 Multiflow Principle; 5.2.2 Multiflow Configurations.
  • 5.3 Multiflow Protocol Stack5.4 Multiflow Impacts on UE Architecture; 5.5 Uplink Feedback for Multiflow; 5.5.1 HS-DPCCH Structure with Multiflow; 5.5.2 Dynamic Carrier Activation; 5.5.3 Timing of Uplink Feedback; 5.5.4 HS-DPCCH Power Levels; 5.6 RLC Impact; 5.6.1 RLC Timer_Reordering; 5.6.2 RLC Reset; 5.7 Iub/Iur Enhancements; 5.7.1 Flow Control; 5.7.2 Multiflow Extensions; 5.8 Multiflow Combined with Other Features; 5.8.1 Downlink MIMO; 5.8.2 Uplink Closed-Loop Transmit Diversity and Uplink MIMO; 5.8.3 DTX/DRX; 5.9 Setting Up Multiflow; 5.10 Robustness; 5.10.1 Robustness for RRC Signaling.
  • 5.10.2 Radio Link Failure5.10.3 Robustness for User Plane Data; 5.11 Multiflow Performance; 5.11.1 Multiflow Performance in Macro Networks; 5.11.2 Multiflow Performance with HetNets; 5.12 Multiflow and Other Multipoint Transmission Techniques; 5.13 Conclusions; References; 6 Voice Evolution; 6.1 Introduction; 6.2 Voice Quality with AMR Wideband; 6.3 Voice Capacity with Low Rate AMR; 6.4 VoIP Over HSPA; 6.5 Circuit-Switched Voice Over HSPA; 6.6 Voice Over HSPA Mobility; 6.7 Circuit-Switched Fallback; 6.8 Single Radio Voice Call Continuity; 6.9 Summary; References; 7 Heterogeneous Networks.

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