Pol�tica
sobre Derechos de Propiedad Intelectual (IPR)
Cap�tulo 1 5
1
Introducci�n
1.1 Finalidad del
Informe
1.2 Consideraciones
generales
1.3 Ventajas de la
tecnolog�a digital � Consideraciones t�cnicas
1.4 Ventajas de la
tecnolog�a digital � Consideraciones comerciales y de reglamentaci�n
1.5 Ventajas de la
tecnolog�a digital � Consideraciones t�cnicas y de reglamentaci�n
1.6 Ventajas de la
tecnolog�a digital � Consideraciones de car�cter comercial
1.7 Actividades de la UIT
1.8 Cometido y futuro de
la Comisi�n de Estudio 6 de Radiocomunicaciones
1.8.1 Introducci�n
1.8.2 La cadena de radiodifusi�n digital
1.8.3 Perspectivas para el futuro
Cap�tulo 2
2
Descripci�n general de las tecnolog�as de
radiodifusi�n
2.1 Introducci�n
2.1.1 UIT-R
Comisi�n de Estudio 1 de Radiocomunicaciones � Gesti�n del
espectro
Comisi�n de Estudio 3 de Radiocomunicaciones �
Propagaci�n radioel�ctrica
Comisi�n de Estudio 6 de Radiocomunicaciones � Servicio de
radiodifusi�n
2.1.2 UIT‑T
Comisi�n de Estudio 9 � Redes de cable de banda ancha
integradas y transmisi�n de sonido y televisi�n
http://1f8a81b9b0707b63-19211.webchannel-proxy.scarabresearch.com/ITU-T/studygroups/com15/index.asp
2.1.3 UIT-D
2.1.4 Conferencia Regional de Radiocomunicaciones (CRR)
2.1.5 Conferencia Mundial de Radiocomunicaciones (CMR-07)
2.2 Tecnolog�as y sistemas
de radiodifusi�n anal�gica
2.3 Consideraciones
relativas a la planificaci�n de los sistemas anal�gicos y digitales
2.3.1 Antecedentes
2.3.2 Compartici�n de bandas de frecuencias del servicio de radiodifusi�n con
otros servicios primarios
2.4 Tecnolog�as y sistemas
de radiodifusi�n digital
2.4.1 Fundamentos de la tecnolog�a digital
2.4.2 Antecedentes
2.5 Radiodifusi�n
digital sonora
2.5.1 Descripci�n de los sistemas de radiodifusi�n sonora digital
2.6 Radiodifusi�n de
televisi�n digital terrenal
2.6.1 Introducci�n
2.6.2 Descripci�n de los sistemas de radiodifusi�n de televisi�n digital
ATSC-M/H
2.7 Resumen
2.8 Evaluaci�n de los
posibles sistemas de radiodifusi�n sonora y de televisi�n digital
2.8.1 Evaluaci�n de sistemas concretos de radiodifusi�n sonora y de TV
digital terrenal
2.8.2 Sistemas h�bridos
Cap�tulo 3
3 Aplicaci�n e implementaci�n de la radiodifusi�n digital
3.1 Consideraciones
reglamentarias
3.2 Utilizaci�n eficaz del
espectro radioel�ctrico
3.3 Requisitos de los
servicios de radiodifusi�n de sonido y televisi�n
3.3.1 Aspectos relativos a la red
3.3.2 Aspectos relativos al receptor
3.4 Aspectos relativos a
la compatibilidad de sistema
3.5 Componentes de los
equipos de radiodifusi�n sonora digital
3.5.1 Transmisores
3.5.2 Antenas de transmisi�n
3.5.3 Receptores
3.6 Componentes de los
equipos de radiodifusi�n de televisi�n digital
3.6.1 Transmisores
3.6.2 Antenas de transmisi�n
3.6.3 Receptores
3.7 Radiodifusi�n de datos
3.8 Servicios de
radiodifusi�n para la recepci�n m�vil 39
3.9 Aspectos relativos a
la interferencia
3.9.1 Interferencia en la recepci�n libre en el entorno m�vil
3.9.2 Efecto de la interferencia en el entorno de usuario
Cap�tulo 4
4 Cuestiones relativas a la transici�n
4.1 Disponibilidad de espectro
4.1.1 Consideraciones relativas a la radiodifusi�n digital
4.1.2 Consideraciones generales sobre la planificaci�n de la radiodifusi�n
4.2 Principios de la
planificaci�n de la radiodifus�n
4.2.1 Consideraciones generales 43
4.2.2 Cobertura de una zona de adjudicaci�n
4.2.3 Puntos de prueba de la adjudicaci�n
4.2.4 Radiodifusi�n sonora digital en bandas decam�tricas
4.3 Calidad del
servicio
4.4 Aspectos econ�micos de
la utilizaci�n del espectro
4.5 Consideraciones
relativas a la salud y la seguridad y otras de car�cter jur�dico
4.6 Transici�n de
anal�gico a digital
4.6.1 Difusi�n simult�nea de servicios en anal�gico y en digital
4.6.2 Posibles mecanismos para implantar la radiodifusi�n digital
4.6.3 Descripci�n general de la transici�n
Ap�ndice 1 a la Parte 1 Estudios de caso
1
Australia
2
Brasil 48
3
Bulgaria
4
Canad� 49
5
Alemania
6
Guinea 50
7
Italia 51
8 Jap�n
9
M�xico 52
10 Federaci�n de Rusia
11 Tanzan�a
12 Estados Unidos de Am�rica 53
13 Rep�blica de Corea
13.1 TV digital para la recepci�n fija
13.2 T-DMB para la recepci�n m�vil
14 Venezuela
15 OCDE
16 Uni�n Europea
Ap�ndice 2 a la Parte 1 Glosario (siglas)
Chapter 1
1.1
DRM
1.1.1 Features of the
system design for the markets to be served by the Digital Radio Mondiale (DRM)
system
1.1.2 Brief description
of the DRM system
1.1.3 Transmitter
considerations
1.1.4 Over the air
1.1.5 Selecting, demodulation
and decoding of a DRM system signal at a receiver
1.1.6 Ongoing case study
in Italy since 2006: DRM daytime MW Tests for frequencies below 1 MHz
1.2
T-DAB general
1.2.1 Frequency bands
1.2.1.1 General
1.2.1.2 Frequencies for
sound channels in the planning area
1.2.2 T-DAB in Band III
1.2.3 Location of
transmitters
1.3
IBOC
1.3.1 IBOC Overview
1.3.2 The IBOC System
Technical Design
1.3.2.1 Services
1.3.3 System components
1.3.4 Operating modes
1.3.5 Generation of the
signal
1.3.6 Reception of the
signal
1.4
ISDB-TSB
1.4.1 Features of ISDB-TSB
1.4.2 Transmission
parameters
1.4.3 Source coding
1.4.4 Multiplexing
1.4.5 Channel coding
1.4.6 Delay adjustment
1.4.7 Modulation
1.5
ATSC
1.5.1 Overview of the
ATSC Digital Television System
1.5.1.3 Audio Compression
1.5.2 ATSC-M/H System Overview
1.5.3 System
Configuration Signaling
1.6
DVB-T
1.6.1 DVB-T variants
1.6.2 Hierarchical
variant
1.6.3 Guard interval
1.6.4 DVB-T in Band III
1.7
DVB-H
1.7.1 Building and
validating an open and scalable network architecture
1.7.2 Content, services
and applications
1.7.3 User devices
1.7.4 Networks
1.8
ISDB-T
1.8.1 ISDB-T Transmission
Parameters
1.8.2 Hierarchical
Transmission
1.8.3 Outline of ISDB-T
1.9
T-DMB
1.9.1 T-DMB General
1.9.2 System architecture
1.9.3 Video service
transmission architecture
1.9.4 Video multiplexer
architecture
1.10 LMDS (Local
Multipoint Distribution System)
1.10.1 Use of LMDS
systems
(All sub-sections describe the situation in European Union. Other
administrations are invited to provide further information on their own
scenarios.)
1.10.2 Some key factors
in the technology
1.10.3 Technological
trends and objective constraints
1.10.4 Target market
foreseen for LMDS
1.11 Forward
Link Only (FLO)
1.11.1 Introduction
1.11.2 Forward Link Only
system architecture
1.11.3 Forward Link Only
system overview
1.11.4 FLO Specification
Chapter 2
2.1
Aspects related to interoperability of systems
2.1.1 Digital reception
2.1.2 Encouragement to
deployment of digital receivers
2.1.3 Consumer
information on digital equipment and switchover
2.1.4 Integrated digital
television receivers
2.1.5 Digital
connectivity
2.1.6 Access for users
with special needs
2.1.7 Removal of
obstacles to the reception of digital broadcasting
2.1.8 Effects on citizens
2.2
Mobile services
2.2.1 Sound
2.2.2 Mobile TV
2.2.3 Enhanced mobile TV
Chapter 3
3.1
Report of TG 6/8
3.2
UMTS/GSM and DVB-T Convergence 113
3.3
DRM simulcast
3.4
Service planning
3.4.1 DRM overview
3.5
Market impact
3.5.1 Market complexity;
plurality of scenarios and stakeholders
3.5.2 The case for public
intervention
3.6
General strategy and co-ordination
3.6.1 Transparent
strategy and monitoring
3.6.2 Regulation allowing
for business autonomy and co-operation
3.6.3 Proportionate and
technologically neutral regulation
3.7
Problems related to the interoperability of systems
3.7.1 Digital reception
3.7.2 Encouragement to
deployment of digital receivers
3.7.3 Consumer
information on digital equipment and switchover
3.7.4 Integrated digital
television receivers
3.7.5 Digital
connectivity
3.7.6 Interoperability of
services
3.7.7 Access for users
with special needs
3.7.8 Removal of
obstacles to the reception of digital broadcasting
3.8
Precautions to control the direct health effects of RF radiation
3.8.1 Employee
(occupational) precautionary measures
3.8.2 Precautionary
measures in relation to the general public
3.9
Precautions to control the indirect RF radiation hazards
3.10
Field‑strength values to be determined
3.11
Additional evaluation methods
3.11.1 Dosimetry
3.11.2 Specific
Absorption Rate (SAR) measurement
3.11.3 Electric field
measurement
3.11.4 Temperature
measurement
3.11.5 Calorimetric
measurement
3.11.6 Body current
measurement
3.11.7 Contact current
measurement
3.11.8 Touch voltage
measurement
3.12
Legal consideration
Appendix 1 to Part 2
1 Australia
1.1
Digital terrestrial television broadcasting in Australia
1.2
DTTB System Selection
1.3 Simulcast of SDTV and HDTV programmes
1.4
Use of Single Frequency Networks (SFNs)
1.5
Planning parameters and interference threshold limits
1.6
Comparison of ITU-R and Australian television planning parameters
1.7
Digital television minimum median field strengths
1.8
Digital television protection ratios
2 Brazil
2.1
Introduction
2.2
Methodology applied for digital terrestrial television channel
planning and its respective results
2.2.1 Digital television
channel planning strategy
2.2.2 Phases of digital
television channel planning
2.2.3 Channel planning
results
2.3
Legislation and Regulatory adjustments for the deployment of
Digital TV in Brazil
2.3.1 Stage 1: Creation
of the Brazilian System of Digital Television (SBTVD)
2.3.2 Stage 2: Digital
Technology updates in regulatory documentation
2.3.3 Stage 3: Creation
of Basic Plan for Digital Channel Distribution (PBTVD)
2.3.4 Stage 4: Definition
of the Digital Terrestrial Television system and the transition period
guidelines
2.3.5 Stage 5:
Establishment of conditions for assignment contract of the additional channel
for the digital and analogue simultaneous transmission
2.4
The Brazilian Digital Television System (SBTVD) Forum
2.4.1 Objectives
2.4.2 Structure and
Composition
2.4.3 Modules Assignments
2.4.4 Outline of the
Technical Standards
2.5
Current Status of the DTT deployment
2.5.1 DTT market in 2008
2.6
Conclusion
3 Bulgaria
3.1 Background
of country TV broadcasting market
3.1.1 TV Programme
licences
3.1.1.1 The terrestrial
broadcasting component ensures analogue delivery of the total of seven
3.1.2 Public/Commercial/Temporary
licensed operators
3.1.3 Cable/Satellite/Terrestrial
delivery
3.1.4 Digital terrestrial
TV broadcasting
3.2
Purpose and mission of the analogue to digital terrestrial TV transition
3.3 Impact
of the digital terrestrial broadcasting Plan of RRC-06 and GE 06 Agreement
3.4
Transition to digital terrestrial TV broadcasting
3.4.1 First phase-start
of the transition
3.4.2 Second phase
of the transition
3.4.3 Allotment
zones
3.4.4 HDTV
3.4.5 One Year
Simulcast Limitation
3.4.6 �Must carry�
obligation
3.4.7 Analogue switch-off
3.4.8 Digital dividend
4 Canada
4.1
National planning strategies and policy considerations
4.1.1 Introduction
4.2
DTV/HDTV History
4.2.1 The Early Years
Action Required
5 Germany
6 Guinea
7 Italy
7.1 Legal
Framework
7.2 Laws
and Provisions for DTT
7.3 DTT
at Present
7.4 The
�Italia Digitale� Committee
7.5 The
�Technical Area� Concept
7.6 The
A.S.O. Plan
7.6.1 Development of the
Plan
7.7 The
DTT Receivers Penetration
7.8 40%
DTT Capacity
7.9 The
Italian DTT Offer
8 Japan
8.1
History in Brief
8.2
Time schedule for digital terrestrial television
8.3
Frequency Situation
8.4
TV channels in Tokyo
8.5
Transmission Antennas
8.6
Shipments of ISDB-T receivers in Japan
8.7
Technical Characteristics of ISDB-T
8.8
Applications on ISDB-T
8.9
Outline of ISDB-T transmission scheme, and related ARIB standards,
ITU-R Recommendations
8.10 Emergency
warning by broadcasting
8.10.1 Automatic
activation of handheld receivers by EWS (Emergency Warning System) signals (See
Recommendation ITU-R BT/BO.1774)
8.10.2 Earthquake and
Tsunami information services via data broadcasting
8.10.3 Broadcasting
earthquake early warning
9 Russian
Federation
10 Tanzania
11 United States of
America
12 Republic of Korea
12.1 Digital
TV for fixed reception
12.2 T-DMB
for mobile reception
13 Venezuela
Appendix 2 to Part 2