Freq.Sharing-GSO Sat.Coordination How to Optimize a Filing ...
Transcript of Freq.Sharing-GSO Sat.Coordination How to Optimize a Filing ...
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Freq.Sharing-GSO Sat.Coordination
How to Optimize a Filing to be
submitted to ITU ?
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Jorge Ciccorossi
BR/SSD/SSC
ITU-R World Radiocommunication Seminar - Geneva, 6-10 December 2010
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Summary:
1) How to Identify Satellite Networks and other
Systems for which Coordination is Required ?
2) Several Interference Criteria utilized to evaluate
compatibility between GSO satellite networks.
Trigger Arc
DT/T
C/I
3) Possible methods to be used to facilitate
coordination and sharing scenario between GSO.
4) How to optimize a filing to be submitted to ITU ?
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Identification of Coordination Requirements
Appendix 5 indicates technical criteria utilized in every case, including:
•Regulatory provision containing form of coordination
•Sharing scenario associated to the case
•Frequency Band and Region
•Services
•Threshold/condition
•Calculation Method
See Table 5-1, Table 5-2 and Annex 1 to AP5
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Criterion of Coordination Arc:
To identify satellites with frequency overlap operating in the
same direction inside the window of ± 8 to ± 10 , or ± 16
degrees from nominal orbital longitud, depending on the
frequency band and service.
Applicable to satellite networks in FSS (non plan)
BSS (non plan)
Meteorological-Satellite
associated Space Operations
in specific frequency bands ( see AP5 )
Utilized by BR to identify coordination requirements.
Coordination between GSO/GSO under provision 9.7
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Coordination between GSO/GSO under provision 9.7
Coordination Arc is applied
Simple but Useful Exercise:
Approach Identifying Satellite Networks with which coordination may be required by using:
SNS-Online or SpaceQuery: SNS Online Link http://www.itu.int/sns/query_builder.html
Frequency
Band
GSO Window=
20 E ± 10 degrees
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Coordination between GSO/GSO under provision 9.7
Result of Exercise of Coordination Arc Approach
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Coordination between GSO/GSO under provision 9.7
Criterion of T/T > 6 %
Mask used by BR to establish coordination requirements in
any other scenario where CA is not applicable.
Utilized by Administrations to request BR to include or
exclude networks in coordination process under No.9.41
Described by Appendix 8 to RR.
It measures the increase of Noise Temperature at Rx due
to Interference as a generic method.
It does not take into account: - wanted signal.
- interfering spectrum shape
T/T > 6 % => Potential Harmful Interference
Further detailed analysis is needed to ensure that
coordination is really needed ( e.g. C/I )
T/T 6 % => No Harmful Interference
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T/T : Introduction to General Method
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Wanted sat. network
p’gt’
grT (K)
T (K)
Interfering sat. network
T / T = (p’ gt’ gr ) / KLT
AP8 describes the method
including definitions
p rs
p re
Ts
Te
Tx
ESRx
ES
Transmission gain :
Valid for Simple Freq. Changing Transponders (Bent Pipe ) only. Not applicable when satellite has on-board signal processing
(digital regenerating transponders, change of modulation, etc).
This case requires separate treatment of up and downlinks.
= pre / prsPower received at the earth stn.
Power received at the satellite
Equivalent Satellite Link Noise Temperature:
T= Te + Ts (K)
Interfering power density level
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S’(Interfering)
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S (Wanted)
w
G4(w)
p’s
T / T = 10log(p’s) + G`3 – LD + G4(w) – K – TE (dB)
G`3
Te
Te
LD
T / T= TE / TE
Freq.Overlap in Downlink only
T/T Case I : Freq. Overlap Co-Directional
Separate treatment of Up and Downlink
(Wanted Satellite has on-board signal processing)
i
G1’(i)
G2
Ts
Ts
S’(Interfering)S (Wanted)
p’e
Lu
T / T = 10log(p’e) + G`1(i) – LU + G2 – K –TS (dB)
T / T = TS / TS
Freq.Overlap in Uplink only
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S (Wanted)S’(Interfering)
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.
Simple Freq.Changing Transponder (Bent Pipe)
Freq. Overlap Uplink Only
i
G1’(i)
G2
Ts
Ts
p’e
LU
Te
T / T = 10log + 10log(p’e) + G`1(i) – LU+G2 – K – T (dB)
T =Te+ Ts
T / T = Ts/T
T/T Case I : Freq. Overlap Co-Directional
Te
Te
Ts
LD
G4(w)
p’s G`3
w
T / T = 10log(p’s) + G`3 - LD + G4 (W) - K – T (dB)
T =Te+ Ts
T / T = TE / T
S (Wanted)S’ (Interfering)Freq. Overlap Downlink Only
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S’(Interfering) S (Wanted)
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Freq.Overlap in both links
T/T= ( Te + Ts ) / T
i
w
G1’(i)
p’e
p’s
G4(w)
G2
Ts
Ts
Te
Te
LU
LD
G`3
T =Te+ Ts
T/T Case I : Freq. Overlap Co-Directional
Simple Freq.Changing Transponder (Bent Pipe)
T / T = ( p’s g`3 g4 (W) ) / (k lD T) + (p’e g`1(i) g2 ) / (k lU T)
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S’(Interfering)
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Downlink (interfering) overlaps Uplink(wanted)
S (Wanted)
T/T = 10log + 10log(p’s) + G`3 (s) - Ls + G2 (s) -K -T(dB)
S
S
p’s LS
G`3(S) G2(S)Ts
Ts
Te
T =Te+ Ts
T/T = Ts / T
T/T Case II: Freq.Overlap in Opposite Direction of Tx.
(Inter-Satellite)
p’sG`3(s)
LSG2(s)
S
s
Ts
Ts
T / T = 10log(p’s) + G`3 (s) - Ls + G2 (s) – K – Ts (dB)
S’(Interfering) Separate treatment of up & down links
T / T =TS / TS
Wanted Satellite has Simple Freq. Changing TXP (bent-pipe)
S (Wanted)
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Coordination between GSO/GSO under provision 9.7
C/I Criterion
Utilized by BR to perform detailed examination of probability of
harmful interference when so requested by Administrations
under No.11.32A of RR.
Based on methodology and protection criteria defined by
REC ITU-R S.741-2 and associated Rule of Procedure
from RRB, or by common agreement between Adms.
It takes into account: - Wanted signal
(level and type of carrier-modulation)
- Interfering signal
(level and spectrum shape)
- Overlapped BandWidth
More accurate to perform inter-networks sharing analysis,
based on quality and availability objectives.
Used by operators in coordination meetings.
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Concept of C/I:
C/I = C/N + KProtection ratio
( generally, between 12.2 – 14 dB, depending on the type of carriers )
Result of your Link Budget
( considering objectives like S/N or BER, availability, etc )
Protection required to ensure compatibility between networks
**C/I examination will be presented in detail in a separate document**
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Interference: Criteria and typical values
C/I C/N C/(N+I)
Degradation D( C/(N+I)) “Delta” (dB)
D(C/(N+I)) = 10log(1+i/n)
C
I+N
N=KTB
I
BW
I/N=-12 dB Degradation @ 0.26 dB ΔT/T = 6%
I/N=-10 dB 0.4 dB
I/N=- 6 dB 1 dB
For a single interference source.
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Worst case given by
I Total = 10.log [ 10( I1 / 10) + 10( I2 / 10) +…+ 10( In / 10) ]
where ITotal, I1, I2...In are in dBW.
In terms of C/I:
1c/i Total =
1 1 1+ +
c/i Adj. Sat. c/i Terrest c/i Other
Multiple Interference Sources:
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Future Scenarios:
WRC’12 and other future conferences may modify the current
criteria to establish coordination requirements, including the
extension of CA to other bands and services (Resolution 901)
Following aspects and combination of them are included in
the proposals:
Reduction of CA in certain portions of C and Ku bands
Introduction of PFD Hard/Trigger Limits on Earth’s Surface and GSO
Limitation of 9.41 under certain conditions of PFD outside CA
Elimination of CA criterion => DT/T only for FSS C and Ku bands
No Change
*Detailed Information of proposals and background of discussions
may be found under Chapter 5/7/3 Draft CPM Report to WRC’12.
SG4 and WP4A constantly consider updates to current
interfering criteria, based on studies using latest technologies
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Methods to facilitate coordination and
sharing scenario between GSO
Frequency Separation
- Band Segmentation
- Channeling Plan
Polarization
Improvement of antenna system spatial discrimination
-Design of Antenna gain contours, roll-off and service areas associated to
satellite beams
- Modifying antenna diameters in the ground segment
- Improvement to Earth Station Radiation Pattern
To Adjust orbital separation between adjacent satellites.
To Reorganize distribution of diferent types of carrier.
Use of advanced modulation/FEC technologies (eg. DVB-S2), signal coding and processing techniques (spread spectrum or CDMA, etc).
Re-engineering of the link budget, including modulation-FEC, power densitylevels, adjusting Quality and Availavibility Objectives in order to toleratehigher levels of interference.
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Frequencies - Polarizations
Satellite 1
Satellite 2
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Space Segment – Spatial Discrimination
0.00
0.00
-6.00
-2.00
-10.00
-4.00
-20.00
0.00
-2.00
-4.00
-6.00
-10.00
-20.00
0.00
-30.00
-20.00
-10.00
-10.00
-6.00
-6.00
-4.00
-4.00
-4.00
-2.00
-2.00
-1.20
-1.20
0.00
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Modifying Orbital Separation:
Exercise:
Assuming D/λ = 100 ; ES Antenna Paterns REC 465-5 / REC 580-6
Interference Reduction:
If - Ii = 25.log (φi / φf)
where φf: minimum final separation between satellites
φi: minimum initial separation between satellites
Scenario 1
Ө1n-Ө2n = 2˚ Nominal Orbital Separation
ΔӨ1 = ΔӨ2 = ± 0.1˚ E-W Station Keeping
Interference Reduction with respect to Scenario 1
Scenario 2
Ө1n-Ө2n = 3˚
ΔӨ1 = ΔӨ2 = ± 0.1˚ If - Ii = 25.log (1.8 / 2.8 ) = -4.8 dB
Warning: From Regulatory point of view, it may be an Impact of New Coordination
Requirements in some cases due to increase of interference to other satellites
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BR / SSD / SNP 22
Gain (phi)
-20
-10
0
10
20
30
40
50
Ground Segment: Improving the Earth Station Radiation Pattern
Antenna Radiation Patterns Comparison
Sidelobes
Gain (phi)
-20
-10
0
10
20
30
40
50
60
0.01 0.1 1 10 100
Phi [deg]
G [
dB
i]
AP8 REC-465-5 A - 25 LOG (phi) REC-580-6 ABCD log
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Changing the Earth Station Antenna Diameter:
Gain (phi)
-20
-10
0
10
20
30
40
50
60
0.01 0.1 1 10 100
Phi [deg]
G [
dB
i]Antenna A Antenna B
Ga max [dBi]= 43.2
Gb max [dBi]= 56
Antenna A
G1 = 23.34
Phi m = 1.50
D/L = 59.40
Phi r = 1.68
Phi b= 47.86
Beamwidth= 1.17
Antenna B
G1 = 35.21
Phi m = 0.35
D/L = 259.28
Phi r = 0.56
Phi b= 47.86
Beamwidth= 0.27
REFERENCES - COMMENTS:
Antenna A= Typical 1.2M
Antenna B= Typical 13M
Mainlobe and Near-Sidelobes
REC-580-6 Antenna Pattern
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Reorganizing distribution of different types of carrier
To identify diferent types of carriers such as:
TT&C
Analog TV/FM
Digital Data
To consider their characteristics of diversity in terms of BW,
Max. Power and spectral density distribution.
To group them in the frequency domain taking into account
the distribution of similar carriers used by neighboring
satellites.
Off-axis eirp masks associated to type of carriers and
frequency bands, as well as operational restrictions or
relaxations, may be agreed during the coordination process.
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How to Optimize a Filing to be submitted to ITU ?
Goal ?Favorable Findings
+ Realistic Info To Ensure Recording
+ AccuracyMIFR
Positive Cycle for current & future networks
Administrations are free to choose the way to organize a filing
Coordination Request: -needs certain flexibility of parameters
-may be a General Approach
-specific
Notification: -accurate parameters
-realistic
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Filing is Group Structured
Diversity of: Beam/Service Areas Frequencies Emissions Earth Stations
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Reorganize Filing considering diversity of frequency
assignments and respective progress in coordination
For example: To split groups of frequency assignments by
Group 11 SA 1 Coord. Completed Fav. Finding MIFR
-Beam/Service Areas
Group 12 SA 2 Coord. Not Completed Further progress
is required
-Frequencies ( similar process )
-Emissions ( similar process )
Group 21 Typical 9m Coord. Completed Fav. Finding MIFR
-Earth Stations
Group 22 Typical 1.2m Coord.Not Completed Further progress
is required
Remarks: locating worst cases in separated groups will ensure recording
of successfully coordinated frequency assignments.
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Questions ?
*Text Document “Frequency Sharing and Satellite Coordination between
GSO Networks. How to optimize a filing to be submitted to ITU ? “
complements this presentation providing further information and references.