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Highlights from Operational Verification in COSMO. Authors: ALL Presented by Adriano Raspanti. WG5 COSMO General Meeting, Rome 2011. Quick look to some common plots Intercomparison between driving model and high resolution Conditional verification Fuzzy verification
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HighlightsfromOperationalVerification in COSMO Authors: ALL Presented by Adriano Raspanti WG5 COSMO General Meeting, Rome 2011
Quick look to some common plots • Intercomparison between driving model and high resolution • Conditional verification • Fuzzy verification • Long term trends (mainly precipitation) WG5 COSMO General Meeting, Rome 2011
BC from GME CEU,CPL,CRU !!! BC from IFS C7,CI7,CGR !!! BC from GME ??? BC from IFS ???
Quick look to some common plots • Intercomparison between driving model and high resolution • Conditional verification • Fuzzy verification • Long term trends (mainly precipitation) WG5 COSMO General Meeting, Rome 2011
COSMOME vs ECMWF Temperature DJF SON MAM JJA
COSMOME vs ECMWF Wind Speed DJF SON MAM JJA
COSMOI7 vs ECMWF Temperature DJF SON MAM JJA
COSMOI7 vs ECMWF Wind Speed DJF SON MAM JJA
TemperatureCOSMOME vs COSMOIT DJF SON MAM JJA
Wind SpeedCOSMOME vs COSMOIT DJF SON MAM JJA
Temp 2m - 7km vs 3km Fall Winter Spring Summer Underestimation of Temp, mainly in winter. error ~2o, worse with 7km by ~0.5o Clear diurnal cycle WG5 COSMO General Meeting, Rome 2011
Wind Speed - 7km vs 3km Fall Winter Spring Summer Overestimation of wind (DJF,SON) 2-2.5deg bias similar attitude of 2 models WG5 COSMO General Meeting, Rome 2011
Precipitation (12h-sums +36 to +48h):Spring 2011 over Switzerland (SYNOP‘s)frequency bias: COSMO-7 & IFS observed frequency V. Stauch
Precipitation (12h-sums +12 to +24h):Spring 2011 over Switzerland (SYNOP‘s)COSMO-7 & COSMO-2 for both models mean over 9 gridpoints for each station V. Stauch
T2m COSMO-RU 2.2 and 7 km, Sochi, station Krasnaya Polyana 2.2 km – Less overestimating 7 km
T2m in COSMO-RU 7 and 2.2 km, Krasnaya Polyana Method: 1) nearest point 3D optimized ! COSMO-RU 2.2 km is better than COSMO-RU 7 km for Krasnaya Polyana
T2m in COSMO-RU 7 and 2.2 km, Moscow Method: 1) nearest point 3D optimized ! COSMO-RU 2.2 km RMSE is even slightly higher than that of COSMO-RU 7 km for Moscow
PERFORMANCE DIAGRAM Period March 2010 - April 2011
50% of points (median) > 1 mm/24h & Maximum > 25 mm/24h
50% of points (median) > 1 mm/24h & Maximum > 50 mm/24h
50% of points (median) > 1 mm/24h & Maximum > 75 mm/24h
50% of points (median) > 1 mm/24h & Maximum > 100 mm/24h
50% of points (median) > 5 mm/24h & Maximum > 25 mm/24h
50% of points (median) > 5 mm/24h & Maximum > 50 mm/24h
50% of points (median) > 5 mm/24h & Maximum > 75 mm/24h
50% of points (median) > 5 mm/24h & Maximum > 100 mm/24h
50% of points (median) > 10 mm/24h & Maximum > 25 mm/24h
50% of points (median) > 10 mm/24h & Maximum > 50 mm/24h
50% of points (median) > 10 mm/24h & Maximum > 75 mm/24h
50% of points (median) > 10 mm/24h & Maximum > 100 mm/24h
50% of points (median) > 20 mm/24h & Maximum > 25 mm/24h
50% of points (median) > 20 mm/24h & Maximum > 50 mm/24h
50% of points (median) > 20 mm/24h & Maximum > 75 mm/24h
50% of points (median) > 20 mm/24h & Maximum > 75 mm/24h
Quick look to some common plots • Intercomparison between driving model and high resolution • Conditional verification • Fuzzy verification • Long term trends (mainly precipitation) WG5 COSMO General Meeting, Rome 2011
Conditional VerificationTemp – TCC obs <=25% DJF SON JJA MAM Better behaviour for all the seasons Compare to no condition model
Conditional VerificationTemp – TCC obs >=75%&Wind Speed (obs) <=2 m/s DJF SON JJA MAM Similar. Differences in bias
ConditionalVerificationTemp – TCC obs <=25%&Wind Speed (obs) <=2 m/s DJF DJF SON MAM JJA Similar. Differences in bias
