Mobile TV: Technology and Solutions Analysis for Network Implementation and Operation

Table of Contents

• 2.1 IPDatacast
  • 2.1.1 Overwiev
• 2.2 DVB
  • 2.2.1 DVB-C, DVB-S and DVB-T
  • 2.2.2 DVB-H
• 2.3 MediaFLO
  • 2.3.1 FLO™ TECHNOLOGY OVERVIEW
• 2.4 T-DMB
• 2.5 ISDB-T
  • 2.5.1 Video and audio compression
  • 2.5.2 Transmission
  • 2.5.3 Interaction
  • 2.5.4 Interfaces and Encryption
  • 2.5.5 Feature
• 2.6 TECHNOLOGY SUMMARY

• 3.1 DVB-H
• 3.2 MEDIAFLO
• 3.3 T-DBM
• 3.4 ISDB-T
• 3.5 CONCLUSIONS

• 4.1 CONTENT PROVIDER
• 4.2 TRANSPORT NETWORK
• 4.3 RETURN CHANNEL - INTERACTIVITY
• 4.4 CONTENT MANAGEMENT AND DISTIBUCTION
• 4.5 MOBILE EQUIPMENTS
• 4.6 THE NEXT FUTURE
  • 4.6.1 DVB-H2 (DVB-H in S-band)
  • 4.6.2 MBMS

• 5.1 SOME TRIAL RESULTS
• 5.2 KIND OF SERVICES
• 5.3 A VIEW OF THE FUTURE

• 6.1 DVB-H (DIGITAL VIDEO BROADCASTING FOR HANDHELD)
• 6.2 OMA (OPEN MOBILE ALLIANCE)
• 6.3 MEDIAFLO
• 6.4 T-DMB
• 6.5 ISBD-T

7. APPENDIX A: VHF frequency range

8. APPENDIX B: UHF frequency range

• Figure 1 Nokia 7700 series: first Nokia' s DVB-H prototype (Front Detail and SU-22 Streamer Detail)[Nokia Copyright]
• Figure 2 First commercial Nokia' s DVB-H Mobile Equipment (Front Detail and SU-22 Streamer Detail)[Nokia Copyright]
• Figure 3 IPDC over DVB-H using UMTS as a back channel
• Figure 4 DVB-H broadcast functional scheme (referred to DVB-T, with DVB-H new blocks, in green colour)
• Figure 5 DVB-H protocol stack
• Figure 6 The time slicing principle: example of a service multiplex in a common DVB-T/H channel, including time-sliced DVB-H services
• Figure 7 MPE-FEC frame structure
• Figure 8 Comparison of QPSK and QAM modulation
• Figure 9 The DVB-H standards family
• Figure 10 MediaFLO network scheme
• Figure 11 FLO air interface
• Figure 12 FLO frame stucture
• Figure 13 T-DMB protocol interworking
• Figure 14 T-DMB protocol stack
• Figure 15 Broadcasting Digital TV technologies (world map)
• Figure 16 Broadcasting Digital mobile TV technologies (world map)
• Figure 17 Chain of value in broadcast mobile TV network
• Figure 18 Generic business functions needed to implement a datacast service
• Figure 19 broadcasting network
• Figure 20 An interactive mobile TV service - concept idea (Nokia copyrights)
• Figure 21 The evolution of the phones with mobile TV receiver (some of them are only concepts, other are commercial model)
• Figure 22 Some phones with mobile TV receiver (the pictures are token from product presentations or vendor web pages)
• Figure 23 How it is possible to deliver TV contents using today 3G network infrastructure
• Figure 24 How MBMS delivers TV contents using 3G network enhancements
• Figure 25 MBMS market positioning
• Figure 26 MBMS costs/customers
• Figure 27 Time to watch TVs (traditional and mobile) comparison
• Figure 28 Service positioning
• Figure 29 Existing services (or incoming) vs.

• Table 1 Standards for Mobile TV
• Table 2 Signal parameters for DVB-H OFDM Signal (8 MHz Channel)
• Table 3 Parameters of the various possible DVB-H OFDM transmission modes (from standards)
• Table 4 Time Domain Parameters for DVB-H OFDM Signal (8 MHZ Channel)
• Table 5 Useful Net Bitrates (Mb/s) for Nonhierarchical Systems in 8-MHz Channels With MPE-FEC Code Rate 3/4; Full Multiplex Assumed to be DVB-H
• Table 6 T-DMB Technical Issues
• Table 7 ISDB-T Technical Issues
• Table 8 Mobile TV systems comparison
• Table 9 DVB-H world wide trials and commercial services (from DVB-H project web site)
• Table 10 MediaFLO world wide trials and commercial services (from different web sites)
• Table 11 T-DBM world wide trials and commercial services
• Table 12 ISDB-T world wide trials and commercial services (from different web sites)