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Transcript 
A Mission Concept for Geostationary Passive
Microwave Interferometric Radiometry using
Formation Flight
International Workshop on Measuring High-Wind Speeds over the Ocean
Ahmed Kiyoshi Sugihara El Maghraby
17 November 2016
Astronautics Research Group, [email protected]
Dr Angelo Grubaišić, Dr Camilla Colombo and Dr Adrian Tatnall
Current Limitations on Radiometry Missions
• SMOS:
Soil Moisture and Ocean Salinity
• GPM:
Global Precipitation
• All on Low-Earth Orbit: temporal resolution
limited by orbit revisit period
• Challenge: GEO approximately 50-times
farther than LEO. Large aperture needed
• Diffraction limit of spatial resolution
𝑊𝑎𝑣𝑒𝑙𝑒𝑛𝑔𝑡ℎ
𝛿𝑥 ∝ 𝑅𝑎𝑛𝑔𝑒 ×
𝐴𝑝𝑒𝑟𝑡𝑢𝑟𝑒 𝑠𝑖𝑧𝑒
17/11/2016
SMOSSTORM2016
2
Interferometry and the Visibility Function
Fourier Transform
Inverse Fourier Transform
Image
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Visibility
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3
Designing Visibility Sampling Pattern
Effects of Single-Element Companions
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Designing Visibility Sampling Pattern
Effects of Duplicate Arrays
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The Single-Element Companion Concept
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The Array Duplicate Concept
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Mission Concept Comparison @ 10 GHz
Single-Element Companion
Scaling
Array Duplicates
Companio
ns
Aperture
Diameter
Spatial
Resolutio
n
Constellati
on Mass
Satellites
Aperture
Diameter
Spatial
Resolutio
n
Constellati
on Mass
3
8.0 m
143.1 km
868 kg
3
16.0 m
71.6 km
1974 kg
9
14.4 m
79.5 km
1288 kg
6
28.8 m
39.8 km
3948 kg
18
20.0 m
57.2 km
1918 kg
9
40.0 m
28.6 km
5922 kg
30
32.0 m
35.8 km
2758 kg
12
64.0 m
17.9 km
7896 kg
Correla
tors
TT&C
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Centralised
Distributed
Centralised
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Formation-Flying: Fixed Formation
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9
Formation-Flying: Relative Orbit
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10
Formation-keeping requirements
(Annual)
Single-Element Companions
Array Duplicates
Relative Orbit
Fixed
Relative Orbit
Fixed
Aspherical
Gravity (up
to C55)
4.10E-4 m/s
1.32E-4 m/s
4.10E-4 m/s
1.32E-4 m/s
SRP
5.53E-1 m/s
5.53E-1 m/s
2.69E-4 m/s
8.11E-7 m/s
3BP (Sun)
3.34E-4 m/s
5.27E-5 m/s
3.34E-4 m/s
5.27E-5 m/s
3BP (Moon) 3.62E-4 m/s
1.66E-4 m/s
3.62E-4 m/s
1.66E-4 m/s
Levitation
0
1.67 m/s
0
1.67 m/s
Total
5.54E-1 m/s
2.23 m/s
1.38E-3 m/s
1.67 m/s
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Effect of Formation Flight Deviation
• Interferometer output dependent on antenna element positions
• Any error in measuring relative position will lead to errors
Single-Element Companion Concept
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Array Duplicate Concept
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Effect of Formation Flight Deviation
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Conclusion
• Identified novel architectures for Geostationary microwave
interferometry
• Concept can be used for geostationary radiometry,
unprecedented spatial resolution from medium-Earth orbits, or
extend reach to very low frequencies
• Two viable mission concepts identified, key requirement
performance figures characterised
• Orbital characteristics of the formations characterised
• Micron-level inter-satellite ranging likely required
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14
Thank you
Ahmed Kiyoshi Sugihara El Maghraby
17 November 2016
Astronautics Research Group, [email protected]
Dr Angelo Grubaišić, Dr Camilla Colombo and Dr Adrian Tatnall
Publications and Thank you
•
A.K. Sugihara El Maghraby, A.R. Tatnall, A.N. Grubisic, “A Constellation Concept for Microwave Interferometric
Radiometry from Geostationary Orbit,” in RSPSoc, NCEO and CEOI-ST Joint Annual Conference 2015,
Southampton, United Kingdom, 2015
•
A.K. Sugihara El Maghraby, C. Colombo, A.N. Grubisic, A.R. Tatnall, “A Novel Approach to Microwave
Interferometric Radiometry in the Geostationary Orbit using Formation Flight,” in Internatlional Astronautical
Congress 2016, Guadalajara, Mexico, 2016
•
International workshop on measuring high-wind speeds over the ocean, November 2016
•
International Geoscience and Remote Sensing Symposium (IGARSS 2017), July 2017 (Planned)
•
Suitable Geometry for GEO radiometry in IEEE Transactions on Geoscience and Remote Sensing (Planned)
•
Formation flight dynamics of such concept at the geostationary orbit in Advances in Space Technology
(Planned)
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