Aquarius/SAC-D Science Meeting Seattle, WA 19-22 July 2010 College of Engineering Department of Atmospheric, Oceanic & Space Sciences Chris Ruf Space Physics.

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Presentation transcript:

Aquarius/SAC-D Science Meeting Seattle, WA July 2010 College of Engineering Department of Atmospheric, Oceanic & Space Sciences Chris Ruf Space Physics Research Laboratory Dept. of Atmospheric, Oceanic & Space Sciences University of Michigan (V), (F) Aquarius Radiometer RFI Algorithm

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 2 of 12 Outline Description of Aquarius RFI Flag Algorithm Examples of SMOS RFI

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 3 of 12 Qualitative Description of Algorithm The RFI detection algorithm is a “glitch detector” which identifies samples that deviate anomalously from the average of their neighbors Adjustable parameters of the algorithm address –How many neighboring samples to use to determine the local average –Which neighboring samples to exclude from the average due to possible RFI contamination –How large a deviation from the local average constitutes the presence of RFI –Which (if any) other samples near a contaminated sample should also be flagged as contaminated even if they are not flagged directly by the algorithm

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 4 of 12 Relevant Aquarius Data Sampling Parameters Calibrated TB samples are measured every 10ms Satellite ground track velocity is ~ 7.5km/s Radiometer HPBW footprint diameters are ~ 85, 102 and 125 km Derived relationships –A very sharp TB feature, such as a coastal crossing, requires approximately 13 seconds (= HPBW/v groundtrack ) to develop in the Aquarius image –There will be approximately 1300 TB samples taken during a coastal crossing transition

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 5 of 12 Example of Algorithm Performance Data Set E (simulated coastal crossing w/ single RFI event at coastline) Algorithm parameters: W s =20, T m =1.5, T det =4, W r =W f =5 Single RFI event successfully detected; false alarms still present

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 6 of 12 Pre-launch Algorithm Parameter Values Algorithm parameters and suggested nominal values are: –Averaging window for local mean TB value: W s =20 –Mean threshold to select clean TBs for local mean: T m =1.5 –Detection threshold to decide if RFI is present: T det =4 –Neighborhood of detected RFI also flagged: W r =W f =5 T det has the most significant effect on performance –Coastal crossing can trigger false alarms if T det is set too low –Missed detections will result if T det is set too high Algorithm has capability for lat/lon dependent parameters with 1 deg resolution –Currently all the same pending SMOS analysis

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 7 of 12 SMOS RFI Impulse Response Test Pulse a controlled RFI source on and off during SMOS overpass –Half-wave crossed dipole with circular Pol’z –Antenna borsesight pointed at center of SMOS FOV –TB ~ 450 K –Period of modulation = 3 x smallest SMOS integration time (so at least one known integration is 100% ON and OFF) ON – OFF difference resolves RFI impulse response –Small changes in incidence angle from ON to OFF add background residual error

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 8 of 12 SMOS H-pol TB Image Animation During RFI Impulse Response Test

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 9 of 12 SMOS H-pol TB Time Series and RFI Impulse Response Images Time series of TB H at RFI location ON-OFF TB H difference (close up of RFI at right)

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 10 of 12 SMOS H-pol TB RFI Impulse Response Transects along three 120 o principle planes

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 11 of 12 SMOS “Peak Hold” Detected RFI Image Land V-Pol during 5-11 June 2010

20 Jul 2010Ruf, Aquarius Radiometer RFI Algopg 12 of 12 SMOS “Peak Hold” Detected RFI Image Ocean V-Pol during 5-11 June 2010