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TH1.L10.3: MONOSTATIC CALIBRATION OF BOTH TANDEM-X SATELLITES

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Monostatic Calibration of both TanDEM-X Satellites Marco Schwerdt , Jaime Hueso Gonzalez , Markus Bachmann, Dirk Schrank, Clemens Schulz, Björn Döring
TSX-1 / TDX-1 In-Orbit Calibration Plan Operational Phase Ant Point Geo Cal GS/SC Checkout TSX-1 Launch (15.06.2007) Radiometric Calibration Ant Model Verification TSX-1 Commissioning Phase 5 Months Summer 2007 TDX-1 Comm. Phase TDX-1 Launch (21.06.2010) 5 Months (Mono + Bi: 3+2) Geo Cal Ant Point • • • • • • Channel Imbalance DRA Campaigns 1 Month Spring 2009 Radiometric Calibration Antenna Model Cross Talk Radiometric Calibration Ant Model Verification Geo Cal TSX-1 Re-Calibration 1 Month Ant Point Summer 2009 ≈ ≈
TSX-1 Calibration
Geometric Calibration TSX-1 ,[object Object],[object Object],Near range Far range - Azimuth shift - Instrument delay - Tropospheric effects ,[object Object],[object Object],Connection between SAR data and geographic position on Earth surface is calibrated 2m ( requirement ) 30 cm (1  ) (2 ns) ,[object Object],No trend since 2 years 3.75 cm (0.25 ns) ,[object Object]
Pointing Determination in Azimuth TSX-1 ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],Near range Elevation look angle [degree] Far range Frequency shift due to mispointing [Hz]
Antenna Pattern Monitoring TSX-1 ,[object Object],[object Object],Purpose Detect changes in the antenna front end and waveguides 120 km range 60 km azimuth strip_003 strip_004 strip_005 strip_006 Quality parameters *  max µ  min strip_003 strip_004 strip_005 strip_006
Antenna Pattern Long Term Monitoring TSX-1 Shape deviation within the main beam Beam-to-beam gain prediction stable, no trend Requirement still fulfilled Δ < ± 0.2dB
Radiometric Calibration TSX-1 µ 2009 = -56.53dB + 0.10dB (CR) = -56.43dB µ ≤ ± 0.2dB within scene TerraSAR-X is extremely stable 0.15dB over 2 years µ ≤ ± 0.2dB within full performance range Requirement 0.5 dB (1  ) over 6 months ! CR: corner reflector ,[object Object],[object Object],-57,6 -57,4 -57,2 -57 -56,8 -56,6 -56,4 -56,2 -56 -55,8 -55,6 10 15 20 25 30 35 40 45 Look Angle [deg] Abs Cal Factor [dB] strip_002 strip_007 strip_013  = -56.50 dB  = 0.21 dB  = -56.76 dB  = 0.24 dB  = -56.45 dB  = 0.16 dB strip_007 -57,6 -57,4 -57,2 -57 -56,8 -56,6 -56,4 -56,2 -56 -55,8 -55,6 Abs Cal Factor [dB] near mid far  = -56.73 dB  = 0.22 dB  = -56.65 dB  = 0.17 dB  = -56.62 dB  = 0.18 dB  = -56.67 dB  = 0.18 dB ,[object Object], Abs. Cal Factor 2007 - 56.58 dB 2009 - 56.43 dB ≤ ± 0.2dB ,[object Object]
Calibration Tasks Performed in 2009 TSX-1 ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],Ch. 2 Ch. 1
Channel Imbalance: Amplitude TSX-1 -0.18dB antenna gain Correction, V-pol on receive max. offset 0.44dB Channel imbalance 0.26 dB Abs. rad. accuracy during DRA campaigns 0.30 dB (1  ) (45° constellation)
One-Way Cross Polar Isolation TSX-1 ,[object Object],[object Object],Cross talk Requirement ≥ 24dB (1-way, StripMap) Receiver for V-pol Strip_013, des, Inc. 43.7° (16-04-2007) H V 1-way cross polar isolation (on transmit) > 34dB
TerraSAR-X Calibration Tasks Performed in 2009 C ALIBRATION TerraSAR-X is stable with outstanding performance Slide 12 27 DLR colleagues DRA mode calibration Radiometric stability 0.15 dB (over 2 years) Absolute radiometric accuracy 0.39 dB (StripMap) 0.46 dB (DRA Quad-pol) Channel imbalance 0.26 dB / < 3 deg Cross talk < - 24.9 dB 213 acquisitions 171 over rainforest 42 cal-field (306 targets) Re-calibration 2 years after launch Pointing accuracy < 1 mdeg (azimuth) < 4 mdeg (elevation) Pixel localization accuracy 31 cm (range) 54 cm (azimuth)
TDX-1 Calibration
TDX-1 Calibration Goals ,[object Object],≤ 0.1dB / ≤ 1.0 degree Internal calibration accuracy < 0.7dB Absolute radiometric accuracy ≤ 0.5m (range/azimuth) Pixel localization accuracy ≤ 0.2 dB (requirement) Antenna model accuracy < 2 mdeg (azimuth) < 10 mdeg (elevation) Pointing accuracy TDX-1 Calibration Goals SAR Quality Parameter
TDX-1 Monostatic Calibration Strategy ,[object Object],[object Object],[object Object],[object Object],[object Object],Cal test sites * Rainforest: distributed field * South Germany: 30 calibration sites from which 17 are permanently installed corner reflectors TanDEM-X calibration team 32 DLR colleagues Around 60 calibration campaigns with reference point targets: transponders and corners More than 1000 datatakes will be analyzed
Calibration Field in South Germany near by Oberpfaffenhofen Munich D01 x D02 x D03 x D04 x D05 x D06 x D07 x D24-D30 x x x x x x x D08 x D09 x D10 x D12 x D14 x D17 x D18 x D19 x D20 x D22 x D11 x D13 x D15 x D16 x D21 x D23 x 40km 120km S007 S007
First Results: Chirp Comparison of TDX-1 – TSX-1 ,[object Object],[object Object],image frequencies chirp TSX-1 TDX-1 important for bistatic operation
First results TDX-1: TRM Characterization – PN Gating blue: measured in flight cold red: measured in flight hot black: on ground characterization Receive Phase [degrees] Amplitude [dB] Transmit Phase [degrees] Amplitude [dB] ,[object Object]
First Results TDX-1: Antenna Pattern over Rainforest ,[object Object],strip_003 strip_004 strip_005 strip_006 strip_003 strip_004 strip_005 strip_006
First Results TDX-1: Antenna Pattern by Ground Receivers Ground Receiver Position Vector ,[object Object],[object Object],Transmit pattern only Relative accuracy < ± 0.1dB
First Sequential Ground Receiver Acquisition ,[object Object],[object Object],3s azimuth separation ≈ 20 km TSX-1 TDX-1 RX
Questions? THE END TSX-1 DLR logo experiment : Oberpfaffenhofen, Bayern, Germany (19 th June 2008)

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TH1.L10.3: MONOSTATIC CALIBRATION OF BOTH TANDEM-X SATELLITES

  • 1. Monostatic Calibration of both TanDEM-X Satellites Marco Schwerdt , Jaime Hueso Gonzalez , Markus Bachmann, Dirk Schrank, Clemens Schulz, Björn Döring
  • 2. TSX-1 / TDX-1 In-Orbit Calibration Plan Operational Phase Ant Point Geo Cal GS/SC Checkout TSX-1 Launch (15.06.2007) Radiometric Calibration Ant Model Verification TSX-1 Commissioning Phase 5 Months Summer 2007 TDX-1 Comm. Phase TDX-1 Launch (21.06.2010) 5 Months (Mono + Bi: 3+2) Geo Cal Ant Point • • • • • • Channel Imbalance DRA Campaigns 1 Month Spring 2009 Radiometric Calibration Antenna Model Cross Talk Radiometric Calibration Ant Model Verification Geo Cal TSX-1 Re-Calibration 1 Month Ant Point Summer 2009 ≈ ≈
  • 4.
  • 5.
  • 6.
  • 7. Antenna Pattern Long Term Monitoring TSX-1 Shape deviation within the main beam Beam-to-beam gain prediction stable, no trend Requirement still fulfilled Δ < ± 0.2dB
  • 8.
  • 9.
  • 10. Channel Imbalance: Amplitude TSX-1 -0.18dB antenna gain Correction, V-pol on receive max. offset 0.44dB Channel imbalance 0.26 dB Abs. rad. accuracy during DRA campaigns 0.30 dB (1  ) (45° constellation)
  • 11.
  • 12. TerraSAR-X Calibration Tasks Performed in 2009 C ALIBRATION TerraSAR-X is stable with outstanding performance Slide 12 27 DLR colleagues DRA mode calibration Radiometric stability 0.15 dB (over 2 years) Absolute radiometric accuracy 0.39 dB (StripMap) 0.46 dB (DRA Quad-pol) Channel imbalance 0.26 dB / < 3 deg Cross talk < - 24.9 dB 213 acquisitions 171 over rainforest 42 cal-field (306 targets) Re-calibration 2 years after launch Pointing accuracy < 1 mdeg (azimuth) < 4 mdeg (elevation) Pixel localization accuracy 31 cm (range) 54 cm (azimuth)
  • 14.
  • 15.
  • 16. Calibration Field in South Germany near by Oberpfaffenhofen Munich D01 x D02 x D03 x D04 x D05 x D06 x D07 x D24-D30 x x x x x x x D08 x D09 x D10 x D12 x D14 x D17 x D18 x D19 x D20 x D22 x D11 x D13 x D15 x D16 x D21 x D23 x 40km 120km S007 S007
  • 17.
  • 18.
  • 19.
  • 20.
  • 21.
  • 22. Questions? THE END TSX-1 DLR logo experiment : Oberpfaffenhofen, Bayern, Germany (19 th June 2008)

Notas do Editor

  1. - the name was too long for the slide - Very homogenious, no logging paths, no deforestation, just pure rain forest
  2. Antenna Excitation Generator : Berechnung der Anregungskoeffizienten , d. h. Amplituden- und Phasenbelegung =&gt; Schwenkung des Beams Einhaltung der Maske, Slope, Ripple Antenna Pattern Generator: Wie der Name schon sagt: Generiert der Antennenpattern. Problem nämlich: Umgebung auf Erde anders als im All, Gesamtantenne zu groß für Messkammer Optimale Vermessung der Antenna auf der Erde nicht möglich Antennenmodell um das Pattern möglichst genau nachbilden zu können Wofür? Prozessierung (PGS) -&gt; Rausrechnen der Antennencharakteristik aus dem Bild Da zwei getrennte Module =&gt; Zwei Assemblies =&gt; vor den Test cases : Überblick über Inputs/Outputs
  3. Überleitung: - unabhängig von Position innerhalb des Swath - und vom jeweilighen Beam 1 Cal Faktor für alle Beams, d.h. der Cal Faktor kann aus allen Messungen die zur Re-Cal durchgeführt wurden abgeleitet werden und im Vergleich zu dem Cal-Faktor am Ende der CP, läßt sich die radiometrische Stabilität nach 2 Jahren erstmals aus realen Messungen ableiten
  4. Nicht auf alle Punkte eingehen in 20min =&gt; daher Präsentation nur der wesentlichen Ergebnisse, insbesondere wo es Veränderungen gegeben hat! ICAL keine weiteren Auffälligkeiten =&gt; stabil, Top-Down Philosophie, solange absCal konstant, keine Notwendigkeit ICAL im Detail zu untersuchen
  5. Nicht auf alle Punkte eingehen in 20min =&gt; daher Präsentation nur der wesentlichen Ergebnisse, insbesondere wo es Veränderungen gegeben hat! ICAL keine weiteren Auffälligkeiten =&gt; stabil, Top-Down Philosophie, solange absCal konstant, keine Notwendigkeit ICAL im Detail zu untersuchen
  6. 29.07.10