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
Annex 1� ISDB-T multimedia broadcasting for mobile reception
�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
Annex 2� T-DMB and Advanced T-DMB
�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
Annex 3� DVB-H Standard EN 302 304
�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
Annex 4 �Forward link only
�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
Annex 5� Digital mobile narrow-band multimedia broadcasting system RAVIS (Real-time AudioVisual Information System)
�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
Annex 6 �DVB-SH (Satellite services to handheld devices) Standard EN 302 583
�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
Annex 7� ATSC Mobile DTV
�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
Annex 8� DVB-T2 Lite standard for multimedia broadcasting
�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
Annex 9� Telecom network based multimedia broadcast/multicast services
�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

CONTENTS