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UPDATE ON SATELLITE-DERIVED amv RESEARCH AND DEVELOPMENTS EUMETSAT (Courtesy Régis Borde ) NESDIS (Courtesy Jaime Daniels and Wayne Bresky ) CIMSS ( Velden , projects with NRL and UMiami ). EUMETSAT
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UPDATE ON SATELLITE-DERIVED amv RESEARCH AND DEVELOPMENTS EUMETSAT (Courtesy RégisBorde) NESDIS (Courtesy Jaime Daniels and Wayne Bresky) CIMSS (Velden, projects with NRL and UMiami)
EUMETSAT • Primary effort to create a better link between features being tracked and height assignment of AMVs using CCC (cross-corr) method which identifies pixels that dominate the optimal motion correlation surface. • Resultsquitedependent on Cloud AnalysisproductCTHs. • New schemegives more good AMVs (QI >80), but slow bias and RMS athighlevels are not improved. More workneeded. • Preliminary assimilation test at ECMWF gave mainly a neutral impact on forecasts.
Prospects • Use this method together with the future Optimal Cloud Analysis (OCA) product. • Estimate and test the potential use of weighted pressure (in hPa) in assimilation. It gives information on the variability within the group of pixels used for HA. • OCA product can also provide information about the reliability of the HA retrieval. • Opportunity to estimate AMV HA quality based on this new information.
NESDISNew “Nested Tracking” Method • Experimental: part of new GOES AMV feature tracking algorithm (significant change) • Uses smaller target scenes “nested” within a larger target scene to derive local motions • A clustering analysis algorithm is used to extract the dominant motion in the larger target scene • Cloud-top products (computed upstream of AMV algorithm) from pixels belonging to the largest cluster are used to assign a representative height to the derived motion wind • Significant gains in product accuracy, particularly for upper -level LWIR AMVs. • Near elimination of observed slow speed bias; a significant concern of the NWP user community
NESDISInitial Results from Testing Statistical comparison (vs. collocated raobs): Winds generated using Meteosat-8 10.8 μm imagery (15-minute loop interval) for the period Feb 1 - 28, 2007.
Nested tracking approach effectively minimizes the slow speed bias Most speed “adjustments” are small, but some can exceed 10 m/s Smaller bias a result of lower heights and faster winds Nested tracking approach also significantly reduces RMSE Greatest benefit seen at upper levels for IR AMVs Smaller improvements for cloud-top WV AMVs Identified opportunities with the nested tracking approach Additional clusters may contain useful wind information in the target scene Use pixel level heights from cluster analysis to report layer information Clustering metrics may enable new quality control to be employed Number of points in cluster Number of clusters mean distance of points in cluster Extend cluster analysis to include height Paper in preparation: Bresky, W. and J. Daniels: New Methods Towards Minimizing the Slow Speed Bias Associated with Atmospheric Motion Vectors. Submitted a proposal to the Joint Center for Satellite Data Assimilation (JCSDA) to perform an NCEP GFS NWP forecast impact study using AMVs derived from new approach NESDIS Summary and Future Plans
CIMSS/NRL • Recent efforts to optimize assimilation strategies for AMVs • - Focus on tropical cyclones in global and meso DA/models • Study 1: NRL/FNMOC NAVDAS/NOGAPS data impact studies • Test 4DVAR assimilation of hourly AMVS, and Rapid-Scan AMVs • Results: Positive forecast impact in 3-5 daytimeframe for TC tracks • (Berger, Langland, Velden et al. 2011, to appear in JAMC) • FNMOC implemented assimilation of CIMSS NH hourly AMVs from MTSAT-2 and GOES-11 into its operational 4DVAR global NWP system in December 2010. Hourly AMVs from Meteosat-7 (NH and SH) were added in February 2011. Even with this limited coverage of hourly AMVs, the total number of AMVs assimilated globally increased ~65% and the beneficial impact as measured by the NRL variationaladjoint system has increased ~40%.
CIMSS/NCAR/UMiami Study 2: Mesoscale DA/model data impact studies (Tropical Cyclones) • Framework: NCAR Data Assimilation Research Testbed (DART) • Data assimilation: Ensemble Kalman Filter (EnKF) • Model: Advanced Research WRF (WRF-ARW) • Ensemble members: 32; Case: Typhoon Sinlaku (2008) • Assimilation cycle started Sep. 1st, 2008. (one week before genesis) • 9km moving nest grid with feedback to 27km grid in the forecasts when TC is present. • Deterministic: ECMWF 1.125°x1.125° (Baseline)
Analysis Track and Intensity CIMSS CIMSS JMA Best Track CTL CIMSS Structure 09/09:00Z CTL 09/10:00Z CIMSS 09/11:00Z Upper-lev Div (Above) Azi-mean Vort (Right)