Policy on Intellectual Property Right (IPR)
1 Introduction
2 User requirements
2.1 Types of receiving terminals
2.2 Types of usage scenarios
3 Types of mobile receivers
3.1 Nomadic receivers
3.2 Pedestrian receivers
3.3 Vehicular receivers
3.4 Vehicular reception
using nomadic and pedestrian receivers
3.5 An example of enhanced
handheld receivers
4 System characteristics and
network planning aspects
4.1 Distribution network
4.2 Some network planning
and radio frequency aspects
4.3 Receiver characteristics
4.4 Content manipulation
and distribution
4.5 Managing mobility
4.6 Error characteristics
4.7 Interoperability
between mobile telecommunication services and digital broadcasting services
5 Transmission mechanisms for
broadcasting of multimedia and data applications for mobile reception
6 Display patterns on mobile
receivers
7 Emission and reception
characteristics for Multimedia Systems “A”, “B”, “C”, “E”, “F”, “H”, “I”, “M”
and “T2”
8 Implementation of interactivity
8.1 Digital mobile
telephony
8.2 Interaction channel
making use of the broadcast spectrum
8.3 Summary of interaction
channel methodologies
9 User requirements of multimedia
broadcasting systems for mobile reception by handheld receivers
10 Conclusion
1 Service requirements from ISDB family use cases
2 System descriptions
3 Interoperable digital
terrestrial multimedia broadcasting systems
4 Key features of ISDB-T
multimedia broadcasting for mobile reception
5 System parameters of ISDB-T
multimedia broadcasting system
5.1 Physical layer
5.2 Multiplex and
transport
5.3 Source coding
5.4 Transmission mechanism
of ISDB family
6 Service image of ISDB-T
multimedia broadcasting for mobile reception
6.1 Examples of 1- or
3-segment services
6.1.1 One
segment receiver and three-segment receiver
6.1.2 Interactive
broadcasting service for portable receiver connected to communication networks
6.1.3 Data
broadcasting for client storage
6.1.4 Several
types of portable receivers and mobile receivers
6.2 Examples of 1- or
13-segment services
7 Normative references
1 Service
requirements for T-DMB use cases
1.1 General requirements
1.2 Video objects
1.3 Audio objects associated with the video
1.4 Auxiliary data (optional)
2 System overview
3 Architecture
3.1 Systems architecture
3.2 Video service
transmission architecture
3.3 Video multiplexer architecture
3.4 Scalable video service transmission architecture
3.5 SVC video multiplexer architecture
4 Transmission mechanisms of T-DMB
4.1 Video service
transmission architecture
5 Transport stream specification
5.1 Transport stream packet specification
5.2 PES packet specification
6 Error protection
6.1 Outer coding
6.2 Outer interleaver
7 Content formats
7.1 Composition of MPEG-4 contents
7.2 Packetization of MPEG-4 contents
7.3 Audio object
7.4 Video object
7.4.1 Profile and levels supported
Profile
Level
7.4.2 Specification related to the transport of a video stream
7.5 Auxiliary data specification
7.6 Scene description
specification
7.7 Graphics data
specification
8 Market status of T-DMB
receivers in Korea
9 Applications of T-DMB
9.1 Transport protocol expert group
9.1.1 Road traffic message (RTM)
9.1.2 Point of interest (POI)
9.1.3 Congestion
and travel-time information (CTT)
9.1.4 CTT summary information (CTT-SUM)
9.2 Broadcast website (BWS)
9.3 Binary format for scenes
9.4 Dynamic label service
9.5 Slideshow
9.6 Emergency warning system
9.7 Electronic programme
guide
9.8 Conditional access system
10 Advanced T-DMB
10.1 Hierarchical modulation
10.2 B mode hierarchical modulation
10.3 Q mode hierarchical modulation
10.4 Constellation ratio
10.5 Turbo code
11 Conclusions
12 References
12.1 Normative references
12.2 Informative references
1 Service
requirements for DVB-H use cases
1.1 The Electronic Service Guide
1.2 Mobile TV
1.3 Enhanced mobile TV
1.4 Scheduled download of audiovisual content or executable software
modules
1.5 Service purchase, service access and content protection
1.6 Roaming
1.7 Interference free reception in the mobile environment
1.8 Long battery lives
1.9 Implementation of interactivity
1.10 Digital mobile telephony
2 The DVB-H standard for delivery
and reception of content to handheld/mobile terminals
3 Overview of the DVB-H delivery
mechanism
3.1 The DVB-H PHY and link layer
3.2 The end-to-end system topology
3.3 IP-based mobile broadcast services systems with DVB-H
4 Schematic picture of IP
datacast over DVB-H system and the application of the mobile phone interaction
path
4.1
IP-based services delivery over DVB-H
4.1.1 IP as a content bearer for the
broadcasted data
4.2 Content formats
5 DVB-H commercial deployments
6 References
6.1 Normative references
6.2 General end-to-end system description
6.2.1 DVB-H
radio interface
6.2.2 IP Datacast service layer
6.2.3 IP
Datacast codecs and formats
6.2.4 OMA BCAST
mobile broadcast services system
1 Introduction
2 Requirements for delivery to
mobile handhelds
2.1 Required service types
2.2 Quality of service
2.3 Audio and video
support
2.4 Functionality, cost,
power consumption
3 FLO system architecture
3.1 Network Operation
Centre
3.2 FLO transmitters
3.3 IMT‑2000 network
3.4 FLO‑enabled
devices
4 FLO system overview
4.1 Content acquisition
and distribution
4.2 Multimedia and data
applications services
4.3 Power consumption
optimization
4.4 Wide and local area
content
4.5 Layered modulation
5 FLO air interface
5.1 Protocol reference
model
5.1.1 Key
features of upper layers
5.1.2 Key
features of stream layer
5.1.3 Key
features of Medium Access Control (MAC) layer
5.1.4 Key
features of physical layer
5.2 FLO air interface
fundamentals
5.2.1 OFDM
modulation
5.2.2 Physical
layer characteristics
5.2.3 Error
correction and coding techniques
5.2.4 Bandwidth
requirements
5.2.5 Transport
mechanisms
6 Candidate frequency bands
7 Conclusion
8 Normative references
8.1 References
1 General description
2 Service requirements for RAVIS use cases
3 Technical aspects of RAVIS
3.1 Audio and video codecs, multiplexing
3.2 Content
3.3 Channel coding
3.4 Transmission mechanisms of RAVIS
3.5 Network architecture
3.6 Testing
3.7 Simulation
4 Brief description of the system
5 Russian Federation national standards
1 General description
1.1 Additional information
on Multimedia System “I” which combines a satellite component and a terrestrial
component
2 Configurations
3 Transmission
mechanisms of DVB-SH
3.1 DVB-SH link and service layer outline
4 Specific issues addressed by
DVB-SH
4.1 Reception conditions
and DVB-SH features
4.2 Combining techniques
4.3 Local content insertion
5 Introduction scenarios
a) “Vehicular first” introduction
scenario
b) “Handheld first” introduction
scenario
6 Conclusion
7 References
7.1 Normative references
7.2 General end-to-end system description
7.2.1 DVB-SH
radio interface
7.2.2 IP
Datacast service layer
7.2.3 IP
Datacast codecs and formats
7.2.4 OMA BCAST
mobile broadcast services system
1 Organization
1.1 Scope
2 References
2.1 Normative references
3 Acronyms and abbreviations
3.1 Terms
4 ATSC-M/H system definition
5 ATSC-M/H system overview
6 Description of the A/153
standard’s parts
1 General description
2 Service requirements for DVB-T2
Lite use cases
3 Architectural and protocol
stack model
4 Transmission mechanisms of
DVB-T2 Lite
5 Key technologies
6 Physical and link layer
7 Performance of system
8 Link
budget
9 Example of possible use of
system
1 MBMS key characteristics
2 MBMS requirements
3 The MBMS broadcast multicast
service centre
4 MBMS user equipment handheld
terminal capabilities
5 MBMS service and Application
types
6 MBMS radio bearer
implementation