PEHRPP Geneva, 3-5 December 2007

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Presentation transcript:

PEHRPP Geneva, 3-5 December 2007 Inter-comparison of precipitation products over Europe: experiences, results and recommendations Dr Chris Kidd School of Geography, Earth and Environmental Sciences, The University of Birmingham PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Overview Introduction European IPWG validation basics Experiences Day-to-day running of a validation site Data availability, ingest, processing, checking Results Summary of results Radar performance; MPE performance Recommendations Current issues Recommendations… PEHRPP Geneva, 3-5 December 2007

IPWG European validation Radar used as 'ground truth' Composite of radars over UK, France, Germany, Belgium and Netherlands Nominal 5 km resolution Equal-area polar-stereographic projection Data and product ingest Near real-time Statistical and graphical output (SGI/Unix; f77/netpbm) Currently developing the BALTEX region data set… PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Processing setup Perceived requirements: Daily inter-comparison → 00Z-24Z (also -06, -09, -12Z) 0.25 degree resolution → 25 km resolution Real-time → near real-time dependent upon product Validation data → radar data (gauge being added later) Automatic → quasi-automatic (not ‘operational’) Many products → limited number of products PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Processing Schedule 01Z Global IR 02Z SSM/I data GPI FDA ECMWF 03Z European radar data PMIR 04Z 3B4x 05Z cics data Statistics at 20km 22Z EUMETSAT MPE Web pages PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Processing system Initial setup: Setting of dates Cleaning out old/decayed data Remapping of data: 5 km PSG projection (equel area) Acquiring data: Searching existing data Listing missing data Creation of .netrc file ftp data sources Results generation: Statistical analysis Graphical output Web pages: Generate HTML files Copy over to server PEHRPP Geneva, 3-5 December 2007

Processing checks foreach day (d0-d0-31) dn=dn+1 set d0=today foreach product & day remap to PSG using LUTs & standardise format standardise filename foreach day (d0-d0-31) foreach product (p1-pn) if (product for day) !exist add to .netrc file foreach datasource (s0-sn) ftp datasource (4k) Y N foreach product & day Generate statistics Generate plots foreach product & day generate HTML files PEHRPP Geneva, 3-5 December 2007

Processing checks foreach day (d0-d0-31) dn=dn+1 set d0=today Set up list of past dates/days Usually okay: sometimes needs tweaking Prepares products into common format Usually okay… foreach product & day remap to PSG using LUTs & standardise format standardise filename foreach day (d0-d0-31) foreach product (p1-pn) if (product for day) !exist add to .netrc file foreach datasource (s0-sn) ftp datasource (4k) Y N Checks for a products results: Okay if no results, but not if bad data Generates outputs: Okay if there is rain… foreach product & day Generate statistics Generate plots FTP runs several times: 4K buffer limit on macros Generates raw HTML: Occassional issues with server foreach product & day generate HTML files PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 IPWG-EU Results Similar to other regions: seasonal dependence of satellite techniques (poorer in winter) Models tend to overestimate rain area/extent Satellite products underestimate rain area/extent Significant day-to-day variations: rainfall patterns, extent, intensity affect statistics Surface contamination noticeable in winter PEHRPP Geneva, 3-5 December 2007

Results: Snow problems PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Results: rain extent PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007

Performance of radar data European composite – different radar systems, difference calibration strategies, different QC. Nominally 5km 15-minute data product; available within ~ 1 hour; 2002-present Known errors include range effects and anaprop (including shipping!) Gauge data: 09-09Z data (dated at end of period) ~6000 daily gauges with mean 10km spacing available 1 month in arrears PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Radar & gauge data PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 - a bad day… PEHRPP Geneva, 3-5 December 2007

Radar vs Gauge correlations CCs essentially independent of month Radar is calibrated using gauge data – even so, cc's rarely exceed 0.9 PEHRPP Geneva, 3-5 December 2007

Radar vs Gauge correlations – by rain extent Correlations (and other statistics) are dependent upon rain extent PEHRPP Geneva, 3-5 December 2007

High-temporal resolution study EUMETSAT Multi-spectral Precipitation Estimate Nominal 15 minute estimates Utilises multi-spectral capabilities of SEVIRI sensor Remapped to 0.25 degree resolution AMSR L2 Rain product (for comparison) Nominal 25km (ave'd 5km) instantaneous estimates PEHRPP Geneva, 3-5 December 2007

AMSR instantaneous: very variable Correlation Date (mmdd) PEHRPP Geneva, 3-5 December 2007

AMSR vs radar (instantaneous) 3 months of data: 20 August 2007 to 20 November 2007 PEHRPP Geneva, 3-5 December 2007

Vis/IR MPE vs radar: 15 minute PEHRPP Geneva, 3-5 December 2007

Vis/IR MPE vs radar: 30 minute PEHRPP Geneva, 3-5 December 2007

Vis/IR MPE vs radar: 1 hour PEHRPP Geneva, 3-5 December 2007

Vis/IR MPE vs radar: 3 hour PEHRPP Geneva, 3-5 December 2007

Vis/IR MPE vs radar: 6 hour PEHRPP Geneva, 3-5 December 2007

Vis/IR MPE vs radar: 12 hour PEHRPP Geneva, 3-5 December 2007

Vis/IR MPE vs radar: 24 hour The critical temporal gap is ~3-6 hour accumulations PEHRPP Geneva, 3-5 December 2007

Statistical Performance Performance can be improved just by smoothing the data! PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Issues I Standardisation of data sets – Why? Easier/better processing (& fewer errors) More coherent long-term data sets Problems: Grid box vs grid point Instantaneous vs accumulation (i.e. ±1.5 hours or 00-03) Data resolutions (temporal & spatial) Data units (storage resolution vs retrieval resolution) Formats (I*2; I*4; R*4) (& units: mmh-1 ;mmd-1 ; kgd-1) Filename and date/time conventions (end, start, period) W-E (180°E/0°E & E-W) and N-S (or S-N) layout PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Issues II Statistical results are dependent upon the rainfall: intensity, extent and patterns temporal resolution spatial resolution All these are inter-related and pose a multi-dimensional problem that cannot currently be adequately resolved PEHRPP Geneva, 3-5 December 2007

PEHRPP Geneva, 3-5 December 2007 Recommendations To establish guidelines for satellite precipitation data sets: we need to be forward thinking and establish common criteria that can and will be used to promote long-term data sets Investigate statistical tests that are more relevant to the data sets we are dealing with, and that be applied over a range of spatial and temporal scales To promote near real-time high resolution (sub-daily, <0.25 degree) precipitation inter-comparisons alongside those of the current IPWG comparisons: these should include combined & component products PEHRPP Geneva, 3-5 December 2007

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