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E-grāmata: Handover in DVB-H: Investigations and Analysis

  • Formāts: PDF+DRM
  • Sērija : Signals and Communication Technology
  • Izdošanas datums: 26-Feb-2008
  • Izdevniecība: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Valoda: eng
  • ISBN-13: 9783540786306
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Handover in DVB-H: Investigations and AnalysisPalielināt
  • Formāts: PDF+DRM
  • Sērija : Signals and Communication Technology
  • Izdošanas datums: 26-Feb-2008
  • Izdevniecība: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Valoda: eng
  • ISBN-13: 9783540786306
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European industry has already developed successful standards in the past, and I am very con dent that on the basis of DVB-H, Mobile TV services can developtheeconomiesofscaletheyneedfortake-upacrossEuropeandaround the world, With these words of EUs Telecom Commissioner Viviane Reding, DVB-H is destined to be a dominating mobile TV technology in Europe and even in the world. I was ?rst getting in touch with the DVB technology when I was doing my PhD research in Brunel University in UK in 2002. At that time DVB-T was already a mature and widely used digital broadcast technology and anyone could easily buy a DVB-T receiver in the market to try the digital broadcast signals that have been already broadcasted in UK since 1998. Then the DVB technology world changed dramatically. As a more ?exible and robust terr- trial broadcast system targeting handsets, DVB-H was developed based on DVB-T. In 2003 the DVB-H community were continuously working to ?n- ize the standard. Finally in November 2004 DVB-H was adopted as an ETSI standard EN 302 304. I was lucky to see all these changes when I was doing my PhD research in DVB technology. And I was very proud to be involved in the di erent DVB-H research projects since the beginning of the DVB-H standard development stage. I was also lucky enough that I am one of the ?rst persons who ?nished PhD degree by focusing on DVB-H research.
Introduction
1(20)
Telecommunication and Broadcast
1(2)
Handover in DVB-H
3(1)
Handover in Converged Networks
3(2)
Handover in Hybrid Broadcast Networks
5(1)
Passive Handover and Active Handover in DVB-H
5(2)
Soft Handover in DVB-H
7(1)
Technical Features of DVB-H
7(10)
DVB-H Protocol Stack
8(1)
Time Slicing
9(2)
MPE-FEC
11(2)
4K Mode and In-depth Interleavers
13(1)
DVB-H Signalling
14(2)
5 MHz Bandwidth
16(1)
DVB-H System Components
17(2)
Book Structure
19(1)
Problems
20(1)
Motivation and Approaches
21(14)
Motivation
21(5)
Approaches
26(5)
Handover Stages
26(2)
Handover Challenges
28(3)
Designing a Better Handover Algorithm for DVB-H
31(1)
Problems
32(3)
Survey of Handover Research in DVB-H
35(10)
Instantaneous RSSI Based Handover
35(3)
SNR Based Handover
38(1)
CDT Based Handover
38(1)
Repeater Aided Handover
39(1)
Fast Scattered Pilot Synchronization Based Handover
39(3)
Phase Shifting Based Handover
42(1)
Handover in Converged Networks
42(1)
Handover Proposed By DVB Project
43(1)
Research Projects Related to DVB-H Handover
43(1)
IST INSTINCT
43(1)
IST MING-T
44(1)
Conclusion
44(1)
Problems
44(1)
DVB-H Signalling Information
45(6)
Introduction
45(1)
PSI/SI Tables
45(3)
TPS Information
48(1)
Electronic Service Guide
49(1)
Service Description Protocol
49(1)
Electronic Program Guide
50(1)
Analysis of DVB-H Signalling
50(1)
Conclusions
50(1)
Problems
50(1)
Electronic Service Guide
51(12)
Introduction
51(1)
IPDC ESG
51(3)
IPDC ESG Layers
51(1)
IPDC ESG Bootstrap Processing Flow
52(1)
DVB IPDC 1.0 and 2.0
53(1)
OMA BCAST ESG
54(3)
Service Guide Discovery over Broadcast Channel
55(1)
Service Guide Discovery over Interaction Channel
56(1)
Service Guide Transmitted over Interaction Channel
56(1)
Scenario of using Single Service Guide to Provide Service Description for Multiple Service Providers
57(1)
OMA BCAST BMCO Profile
57(1)
ESG Sharing
58(1)
Comparison between DVB IPDC ESG and OMA BCAST ESG
59(1)
Conclusions
60(1)
Problems
61(2)
Handover Algorithm for a Dedicated DVB-H Network
63(12)
Introduction
63(2)
Handover Decision-making Algorithms
65(7)
Context Aware Handover Decision-making
65(2)
Location Aided Handover Decision-making
67(2)
UMTS Aided Handover Decision-making
69(1)
Repeater Aided Handover Decision-making
70(1)
Other Handover Decision-making Algorithms
71(1)
Comparison of Different Handover Decision-making Algorithms
72(1)
Hybrid Handover Decision-making Algorithm
72(2)
Conclusions
74(1)
Problems
74(1)
Post Processing of SNR Based Handover
75(6)
Introduction
75(1)
Description of the Algorithm
75(2)
Simulation and Analysis
77(2)
Conclusion
79(1)
Problems
80(1)
Repeater Aided Soft Handover
81(14)
Introduction
81(1)
DVB-H Signalling For RA_Handover
82(1)
RA_handover Algorithm
83(3)
Simulation Model and Analysis
86(6)
Conclusions
92(2)
Problems
94(1)
Repeater Aided Soft Handover Probabiliy
95(10)
Network Topology for Handover probability
96(3)
Mathematical Model for Reduced Power Consumption
99(4)
Conclusions
103(1)
Problems
103(2)
Handover Algorithm for Converged Networks
105(26)
Introduction
105(2)
Research Background
107(1)
Converged Network Overview
108(2)
Handover Between UMTS and DVB-H
110(9)
Performing DVB-H Measurements with the Compressed Mode of UMTS
110(1)
Performing UMTS Measurements with the Time Slicing Mode of DVB-H
111(1)
Intersystem Handover Criteria
111(4)
Handover Execution between UMTS and DVB-H
115(2)
Handover Performance Evaluation
117(2)
Stochastic Tree Model and Analysis
119(11)
Stochastic Tree instead of Multi-dimensional Markov Chain with Loops
120(1)
Stochastic Tree Model for Converged Network
121(4)
Stochastic Tree Model for Intersystem Soft Handover
125(2)
Simulation and results
127(3)
Conclusions
130(1)
Problems
130(1)
Handover Algorithm for Hybrid Broadcast Networks
131(10)
Introduction
131(2)
Hybrid Broadcast Network Overview
133(1)
Vertical Handover in the Hybrid Broadcast Networks
134(4)
Handover between DVB-H and DMB-T
135(3)
Open Issues
138(1)
Conclusions
138(1)
Problems
139(2)
Conclusions and Future Work
141(6)
Conclusions
141(2)
Current and Future Research Work
143(3)
Problems
146(1)
Solutions 147(12)
References 159(8)
Index 167
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