Outline

1. A Novel Ocean Vector Winds RetrievalTechnique for Tropical CyclonesPeth Laupattarakasem1, Suleiman Alsweiss1, W. Linwood Jones1, and Christopher C. Hennon21Central Florida Remote Sensing LaboratoryUniversity of Central FloridaOrlando, Florida 328162University of North Carolina AshevilleAsheville, NC 28804IGARSS 2011Vancouver, CanadaJuly 26, 2011

2. Outline • SeaWinds OVW measurements in hurricanes • Radar backscatter geophysical model function • X-Winds OVW retrieval algorithm • wind direction retrieval • wind speed retrieval • X-Wind Comparisons with H*Wind & QuikSCAT standard L2B OVW product

3. SeaWinds Hurricane Measurements • Historically Ku-band scatterometers have under estimated hurricane wind speeds • Issues • Inadequate spatial resolution (25 km IFOV) • Rain contamination (backscatter & attenuation) • Geophysical OVW retrieval algorithm • Developed for global winds • Not optimized for tropical cyclones

4. Extreme Winds Sigma-0 Geophys Model Function (XW-GMF) • Special QuikSCATGMF developed for hurricanes • Training dataset of 35 QScat hurricane overpasses • 3-D GMF: so = f(ws, relative wdir, atmostransmis) • WS: one-minute sustained 10m wind speeds from NOAA HRD H*Wind surface wind analysis • Relative wind direction c:the difference between wind direction and the radar azimuth look • Atmostransmissivity: inferred from simultaneous observations of QRad H-pol brightness temperatures

5. Hurricane Geophysical Model Function (GMF) 30 m/s H-pol so, dB

6. GMF C0- CoeffDependence on Wind Speed C0 , dB 10 20 40 60 Wind Speed, m/s

7. GMF Anisotropy with Wind Speed C1 , linear units C2 , linear units 10 20 40 60 Wind Speed, m/s 10 20 40 60 Wind Speed, m/s

8. XW-GMF Atmospheric Transmissivity • Rain attenuation is corrected implicitly through use of the QRad H-pol brightness temperature Tbh • GMF = f(ws, rel_wdir, Tbh) Tbh 140 k 160 k 190 k

9. X-Winds OVW retrieval Algorithm • Attributes • Assumes cyclonic wind direction rotation about TC center • Assumes rain effects are primarily absorptive • Rain volume backscatter is neglected • Empirical 3-D XW-GMF accounts for backscatter saturation with wind speed & rain absorption • Uses sequential scalar wind direction and wind speed estimation • Not traditional ocean vector wind “maximum likelihood estimation” retrieval

10. Scalar Wind Direction Estimation • Relies on anisotropy of measured difference between forward and aft looking backscatter measurements Dsomeas = (sofore – soaft) @ top-of-the-atmos Typical hurricane image Latitude Index Dso - linear units Longitude Index

11. Wind Direction Modeling of Dso so anisotropy model for single radar azimuth look Taking the difference between fore & aft radar looks yields Wind direction solutions (aliases) are roots of Yields ambiguous wind direction solutions typically ~ 6 – 8

12. Wind Direction Alias Removal • Keep ambiguities within window ±30 from CCW spiral • Multi-pass median filter and populate missing pixels through interpolation • Use smoothed TC wind field for wind speed estimation Wind Directions Ambiguities Retrieved Wind Direction Field

13. X-Winds Scalar Wind Speed Estimation • Use smooth TC wind field as “estimated true” wind direction and calculate relative wind direction c = (radar az – “est-wind dir”) • Find 1-D wind speed solution for each “so flavor” • (V- & H-pol, fore & aft direction) that satisfies this relationship

14. X-Winds Wind Speeds Retrievals |(someas – GMF)| 4 σ0 flavors HF HA VF VA Wind Speed (m/s)

15. Results and Performance Evaluation - L2B-12.5km OVW product- H*Wind surface wind analysis X-Winds OVW retrievals

16. Hurricane Fabian Rev#21898 X-Winds L2B-WS 12.5km H*Wind Analysis

17. Hurricane Ivan Rev#27217 X-Winds L2B-WS 12.5km H*Wind

18. Wind Speeds Comparison (10 revs) X-Winds QSCAT L2B-12.5km TbH-pol TbH-pol

19. Wind Speeds Comparison (10 revs) X-Winds QSCAT L2B-12.5km TbH-pol TbH-pol

20. Wind Direction Comparison (10 revs) X-Winds QSCAT L2B-12.5km TbH-pol TbH-pol

21. Wind Direction Comparison (10 revs) X-Winds QSCAT L2B-12.5km TbH-pol TbH-pol

22. Conclusion • A new OVW retrieval algorithm has been developed for SeaWinds • Specifically tailored for tropical and extra-tropical cyclones • Performance evaluated using comparisons with H*Wind surface wind analysis and L2B-12.5km • Better agreement with H*Wind • A new (11-year) SeaWindsTC OVW data set will be produced starting next year 2012