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Short Range Ensemble Prediction System Verification over Greece Petroula Louka, Flora Gofa Hellenic National Meteorological Service. HNMS involvement in COSMO-SREPS. Verification of LM-COSMO ensemble forecasts for MAPD-Phase (06-12/2007) Cases of 72-hour forecast horizon, 16 members
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Short Range Ensemble Prediction System Verification over Greece Petroula Louka, Flora Gofa Hellenic National Meteorological Service
HNMS involvement in COSMO-SREPS • Verification of LM-COSMO ensemble forecasts for MAPD-Phase (06-12/2007) • Cases of 72-hour forecast horizon, 16 members • Verification domain: Greece • Data used: SYNOP data covering Greece • Parameters verified: • 2m temperature • Mean Sea Level Pressure (MSLP) • Precipitation • Statistical analysis of the results 10th COSMO General Meeting
COSMO-SREPS domain 10th COSMO General Meeting
Greek SYNOP stations 10th COSMO General Meeting
COSMO-SREPS members 10th COSMO General Meeting
Statistical analysis methods • For continuous parameters such as Temperature and MSLP • Bias • RMSE • For non-continuous parameters (precipitation) • Deterministic approach • Multi-category contingency tables • POD, FAR, ETS • Probabilistic approach (e.g., BSS, ROC diagrams, etc) 10th COSMO General Meeting
IFS GME NCEP UKMO 2mTemperature By Member • Underestimation of Temperature. • It seems that GME driven members have better skill than the others. 10th COSMO General Meeting
2m TemperatureBy Month • Underestimation of summer temperatures • June 2007 was exceptionally warm with strong heat waves • The maximum temperature in Athens reached 46.2 ºC ! • October to December RMSE statistically acceptable. • Different pattern between summer and autumn/winter months 10th COSMO General Meeting
IFS GME NCEP UKMO POD plots dependence on Driving Model 10th COSMO General Meeting
Tiedtke1 Kain-Fritsch1 Tiedtke2 Tiedtke3 POD plots dependence on convective scheme etc. 10th COSMO General Meeting
IFS GME NCEP UKMO FAR plots dependence on Driving Model 10th COSMO General Meeting
Tiedtke1 Kain-Fritsch1 Tiedtke2 Tiedtke3 FAR plots dependence on convective scheme etc. 10th COSMO General Meeting
Brier Skill Score • BSS measures the improvement of the probabilistic forecast relative to the sample climatology = total frequency of the event (sample climatology) • The forecast system has predictive skill if BSS is positive (better than climatology), a perfect system having BSS = 1 10th COSMO General Meeting
BSS plots • The predictive skill is good (positive BSS) for the smaller precipitation thresholds • The first day shows better scores than the other two (especially when compared to the third) • The size of the sample affects the score for the larger precipitation thresholds 10th COSMO General Meeting
BSS plots dependence on Driving Model • It seems that for the 1st day all members group together • Some members show negative BSS for low thresholds • For the 2nd and 3rd days IFS seems to provide better score • The size of the sample affects the score 10th COSMO General Meeting
BSS plots dependence on Physical parameterisations • Members with Tiedtke convective scheme group together • The perturbations of the particular parameters for turbulent and length scale are less important than convective schemes • It seems that the members with Kain-Fritsch convective scheme have worse performance than the others 10th COSMO General Meeting
Reliability Diagrams • The Frequency of an observed event is plotted against the forecast probability of the event. • If the curve lies below the 45° line, the probabilities are overestimated • Points between the "no skill" line and the diagonal contribute positively to the BSS (resolution > reliability). 10th COSMO General Meeting
No skill Climatology – No resolution Reliability Diagrams48hr • Overestimation of the probability especially for the larger threshold, although • Small sample for large thresholds 10th COSMO General Meeting
Relative Operating Characteristic • ROC is a measure of forecast skill. • ROC is a tool that permits to evaluate the ability of the forecast system to discriminate between occurrence and non-occurrence of a precipitation event (to detect the event) • It measures resolution (YES or NO event), but not reliability (e.g. biased forecast) • ROC area < 0.5 indicates no skill. 10th COSMO General Meeting
ROC Area • ROC area values are generally high for the lower thresholds • The ensemble can discriminate those events • It seems that for the first predictive period (24hr) ROC area has larger values for more precipitation thresholds (up to 15mm/day) compared with the other two periods 10th COSMO General Meeting
ROC Areadependence on Driving Model • In general all members contribute similarly • Small sample for larger thresholds 10th COSMO General Meeting
ROC Areadependence on Physical parameterisations • Members with Tiedtke convective scheme group together • The perturbations of the particular parameters for turbulent and length scale are less important than convective schemes • The members with Kain-Fritsch convective scheme seem to perform better => better resolution (but not good reliability, c.f. BSS diagrams) 10th COSMO General Meeting
ROC Curves • Hit rates are plotted against the corresponding false alarm rates to generate the ROC Curve. • The area under the ROC curve is used as a statistical measure of forecast usefulness. 10th COSMO General Meeting
ROC Curves 10th COSMO General Meeting
Remarks on Temperature • Temperature is strongly (~5°C) underestimated during the summer months • Both Bias and RMSE exhibited a diurnal cycle with the (absolute) maxima being during the hottest summer hours, while for the autumn/winter months the diurnal variation had the opposite behaviour • The initial and boundary condition perturbations contribute to the BIAS and RMSE more than the physical parameter perturbations 10th COSMO General Meeting
Remarks on Precipitation • Precipitation amount is overestimated • It is not evident a consistent attitude for the forecasted precipitation driven by a certain initial and boundary condition model • Perturbations of the convective schemes are more important than the perturbations of the particular parameters for turbulent and length scales used • It seems that the members with Kain-Fritsch convective scheme have better resolution but worse reliability compared to the members with Tiedtke convective scheme 10th COSMO General Meeting
MSLPBy Month 10th COSMO General Meeting
Tiedtke1 Kain-Fritsch1 Tiedtke2 Tiedtke3 2mTemperature By Member • Underestimation of Temperature. • No particular effect of the scaling parameters is evident. 10th COSMO General Meeting
Reliability Diagrams24hr No skill Climatology – No resolution 10th COSMO General Meeting
Reliability Diagrams72hr No skill Climatology – No resolution 10th COSMO General Meeting