Policy on Intellectual Property Right (IPR)
Chapter 1 Detailed results of field study of compatibility
between DVB‑T and UMTS
1 Introduction
2 Findings and proposals
3 Methodology
3.1 Parameters considered
for the downlink
3.2 Parameters considered
for the uplink
3.3 Outdoor measurement
procedures
3.3.1 Measurements
for downlink study
3.3.2 Measurements
for uplink study
3.4 Indoor analysis
procedures
3.4.1 Analyses
for downlink study − Frequency separation
3.4.2 Analyses
for downlink study − Power restriction
3.4.3 Analysis
for uplink study − Frequency separation
3.4.4 Analysis
for uplink study − Power restriction
4 Site selection and
characteristics
5 Pre-trial spectrum plot
analysis
6 UMTS uplink/downlink signal
characteristics
6.1 Downlink signals
6.2 Uplink signals
6.2.1 User
equipment uplink measurement at 13A Mill Place, St Clair
6.2.2 UE uplink
measurement at 44 Avenue Road, Mosman
7 Set-top box sensitivity testing
8 Field survey results
8.1 Downlink signal
analysis
8.1.1 Downlink
signal spectrum shape
8.1.2 Downlink
signal levels received with a roof top antenna
8.1.3 Downlink
signal levels received with a portable antenna
8.1.4 Compatibility
tests
8.1.5 Analysis
8.2 Uplink signal analysis
8.2.1 Uplink
signal spectrum shape
8.2.2 Uplink
signal levels received with a roof top antenna
8.2.3 Uplink
signal levels received with an indoor portable antenna
8.2.4 Compatibility
tests
8.2.5 Analysis
9 Call for further studies
10 Definitions
Annex 1 UMTS and DVB‑T sharing study site − St
Clair
_Toc433292142
Annex 2 Channel plan and assignments
Annex 3 Impact
of adjacent channel IMT-2000 base stations on broadcast coverage
1 Introduction
2 The calculation methodology
3 The parameters
4 The calculations
5 The results
5.1 Suburban DTTB scenario
(St Clair)
5.1.1 1st
adjacent channel base station interference (protection ratio = −30 dB)
5.1.2 2nd
adjacent channel base station interference (protection ratio = −40 dB)
5.1.3 3rd
adjacent channel base station interference (protection ratio = −50 dB)
5.2 Rural DTTB scenario
(Goulburn)
5.2.1 Multi-sectored
base station antenna
5.2.2 2nd
adjacent channel base station interference (protection ratio = −40 dB)
5.2.3 3rd
adjacent channel base station interference (protection ratio = −50 dB)
6 Practical coverage implications
6.1 St Clair
6.2 Goulburn
7 Conclusions
8 Proposal
9 Further areas of study
Appendix 1 Technical parameters for the St Clair reception
area (Suburban coverage scenario)
Section A Coverage scenario at St Clair
Section B DTTB parameters
Section C Base station parameters
Section D Antenna discrimination
D.1 DTTB receive antenna
discrimination
D.2 DTTB transmit antenna
patterns
D.3 Base station transmit
antenna patterns
D.3.1 Site 1
(Roper Rd)
D.3.2 Site 2
(Shepherd St)
D.3.3 Site 3
(Bennett Rd):
Appendix 2 Technical parameters for the Goulburn reception
area (Rural coverage scenario)
Section A Coverage scenario at Goulburn
Section B DTTB parameters
Section C Base station parameters
Section D Antenna discrimination
D.1 DTTB receive antenna
discrimination
D.2 DTTB transmit antenna
patterns
D.3 Base station transmit
antenna patterns
D.3.1 Omnidirectional
antennas
D.3.2 Sectored
antennas
D.3.3 Site 1 (Mt
Gray)
D.3.4 Site 2
(Auburn St)
D.3.5 Site 3
(Knox St):
Chapter 2 Field study of uplink and downlink signals
1 Introduction
2 Methodology
2.1 Uplink measurements
2.2 Downlink measurements
2.3 Equipment used in the
measurements
3 Locations selected for this
study
3.1 Suburban environment
3.2 Urban environment
3.3 Rural environment
4 Main results
4.1 Uplink measurements
4.2 Downlink measurements
5 Analysis and observations
5.1 Observations on uplink
measurements (via PCMCIA Card)
5.2 Observations on
downlink measurements (via external TV receive antenna)
5.3 Observations on
out-of-band emissions from a PCMCIA card
6 Further studies
7 Conclusions
Annex 1 Australian radio-frequency spectrum allocations in
the 750-900 MHz band
Chapter 3 Estimation of UMTS cell coverage radius
1 Introduction
2 Measurement of cell IDs within
a UMTS coverage area
2.1 Objective
2.2 Premeasurements
2.2.1 Equipment
2.2.2 Cell ID
verification
2.2.3 Selected
field study areas
2.2.4 Field
study measurement template
2.3 Configuration of base stations
2.3.1 Base
stations at St Clair/Colyton study area
2.3.2 Base
stations at Goulburn/Mt Gray study area
3 Estimation of cell coverage
radius
3.1 Objective
3.2 Methodology for cell
coverage
3.2.1 Suburban
environment − St Clair/Colyton
3.2.2 Rural
environment − Goulburn/Mt Gray
4 Conclusions
Chapter 4 Technical analysis of LTE 800 MHz base
station interference into DTT receivers
Chapter 5 The coexistence of LTE and digital TV services at
UHF: a field trial
Chapter 6 Technical analysis of interference from mobile
network base stations in the 800 MHz band to digital terrestrial
television
1 Introduction
2 Technical parameters of mobile
communication system in the 700 MHz band
2.1 Technical parameters
of base station
2.2 Technical parameters
of mobile station
2.3 Technical parameters
of land mobile relay station
2.4 Technical parameters
of small-powered repeater
3 Technical analysis of
interference between ISDB-T and IMT in the 700 MHz band
3.1 Combined study on
interference
3.2 Interference from DTTB
into IMT
3.2.1 Study on guardband
of 0 MHz
3.2.2 Consideration of minimum guardband
3.3 Interference from IMT
downlink into DTTB
3.3.1 Study on
guardband of 0 MHz
3.3.2 Study on
guardband of 60 MHz
3.4 Interference from IMT
uplink into ISDB-T
3.4.1 Study on
guardband of 0 MHz
3.4.2 Study on
minimum guardband
4 Summary of consideration
results for interference between ISDB-T and IMT in the 700 MHz band
1 Introduction
2 Assumptions
2.1 Frequency calculation
2.2 DTTB network parameters
2.3 Mobile network parameters
2.4 Field strength simulation
3 Results
3.1 Case 1: High power / High tower
3.2 Case 2: Low power / Low tower
3.3 Summary of results
4 Conclusion
5 References
Annex 1 Field strength maps
A.1 Field strength map with Rec. 1546-1%
A.2 Field strength map with Rec. 1546-10%
A.3 Field strength map with Rec. 1812-1%
A.4 Field strength map with Rec. 1812-10%
1 Introduction
2 Parameters
2.1 Frequency arrangements
2.2 Broadcasting network parameters
2.3 Mobile network parameters
2.4 Propagation model and combination of field strength
3 Results