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Polarimetric Radiometer and Scatterometer Measurements. Simon H. Yueh Jet Propulsion Laboratory Operational SVW Requirement Workshop, Miami 7 June 2006. Outline. Introduction Coastal Winds off Southern California Active and Passive Measurements for Hurricane Erika in 1997
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Polarimetric Radiometer and Scatterometer Measurements Simon H. Yueh Jet Propulsion Laboratory Operational SVW Requirement Workshop, Miami 7 June 2006
Outline • Introduction • Coastal Winds off Southern California • Active and Passive Measurements for Hurricane Erika in 1997 • Combined Polarimetric Measurements in Monterey Bay in 2000 • WindSat Signals for High winds • Summary
Coastal Wind off Southern California from POLSCAT/DC-8 on 17 Feb 2002 10km
Coastal Wind off Southern California from POLSCAT on 17 Feb 2002 After about 4 hours, wind speed increased by about 4-5 m/s
Polarimetric Radiometry • Microwave emission from sea surfaces is polarized and varies with ocean surface wind speed and direction • Stokes vector describes the full polarization properties of polarized radiation • Measurement techniques • Coherent Correlation measurements • Incoherent power measurements
Symmetry Properties of Polarimetric Radiometer Signals • Tv and Th are symmetric with respect to wind direction. • U and V are odd functions of wind direction
Radar V H f Wind Ocean Surface POLARIMETRIC SCATTEROMETRY • Polarimetric Scattering Matrix VV VH HV HH • Polarimetric Correlation • Theoretical Predictions of Polarimetric Signature of Wind Direction • svv, shh, svh and rhhvv are cosine functions of wind direction • rhhhv and rvvhv are sine functions
Significance of Polarimetry and Combined Active/Passive • Measurements • Inversion • From c2, we get φ, -φ, φ+180 and 180-φ • From s, we get two solutions, φ and 180-φ • Polarimetry will reduce the number of directional solutions • Will enhance the identification of circulation
NUSCAT/WINDRAD Data at 35 m/s Wind Speed in September 1997 NASA P-3 FLIGHT OVER HURRICANE ERIKA IN SEPTEMBER 1997 (AVHRR INFRARED) • Simultaneous 13 GHz radar and multi-frequency radiometer observations • Radar and polarimetric radiometer data showed consistent wind direction.
POLSCAT/WINDRAD ON NCAR C-130 • OCEAN FLIGHTS NEAR MONTEREY, CA IN AUGUST 2000 AND JULY 2002 • STAR FLIGHT PATTERNS OVER MBARI MOORINGS Mooring POLSCAT PALS WINDRAD WINDRAD
POLSCAT DATA FROM ONE STAR FLIGHT PATTERN Over MBARI M2 Mooring on August 16, 2000 • Clear Wind Direction Signals in All Polarimetric Channles at 10 M/S Wind Speed • sVV, sHH, sVH, sHV, and rVVHH are cosine functions • rVVHV, rVVVH, rHHHV, rHHVH are sine functions Upwind
Polarimetric Scatterometer and Radiometer Measurements at 11 m/s on Aug 16, 2000 Crosswind Upwind
WindSat 10 GHz Data for Hurricane Isabel Rev 3510 • U data show circulation around eye
WindSat Tb Tb(W,f) HOLLAND’S TC MODEL WIND 5 m/s and 20 degree bins Location Velocity of forward motion Central and ambient pressure Radius of maximum wind speed Angle of the maximum wind GMF FOR VERY HIGH WIND • The Approach is based on Young’s technique (JGR 1993) for the estimate of Geosat Altimeter wind speed algorithm • The same technique applied to the QuikSCAT data to develop the model function for very high winds
Holland Model Direction Versus QuikSCAT Wind Direction for Isabel (QuikScat Rev 22012)
WindSat U and V Signals Versus Holland’s Directional Model for Rev 3510 The data from other revs have similar directional features.
Polarimetric WindSat Data Show Response to Hurricane Wind direction • WindSat 10, 18 and 37 GHz data from hurricane Isabel respond to hurricane wind direction • 10 GHz U1 data show strong response at 50 m/s or higher wind speed
WindSat U Model Function and Comparison with Aircraft K-band Data • WindSat U data agree well with aircraft data • Observable passive directional signals for above 30 m/s
Summary • Airborne scattermeter data frequently showed features with a few Km scale • Scatterometer and polarimetric radiometer data show consistent directional signals for 20-35 m/s • Polarimetric scatterometer signals complement the directional characteristics of VV, HH and HV NRCS • WindSat 10-GHz U data showed directional response to ocean wind direction for 50-60 m/s winds. • There were anomalous directional features in V data near eye