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Statistical Postprocessing of Weather Parameters for a High-Resolution Limited-Area Model Ulrich Damrath Volker Renner Susanne Theis Andreas Hense.

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Presentation on theme: "Statistical Postprocessing of Weather Parameters for a High-Resolution Limited-Area Model Ulrich Damrath Volker Renner Susanne Theis Andreas Hense."— Presentation transcript:

1 Statistical Postprocessing of Weather Parameters for a High-Resolution Limited-Area Model Ulrich Damrath Volker Renner Susanne Theis Andreas Hense

2 SWSA 2003 05.05.2003 Overview -Introduction -Description of Method -Examples -Verification Results -Calibration of Reliability Diagrams -Concluding Remarks

3 Basic Set-up of the LM Deutscher Wetterdienst Model Configuration Full DM model domain with a grid spacing of 0.0625 o (~ 7 km) 325 x 325 grid points per layer 35 vertical layers timestep: 40 s three daily runs at 00, 12, 18 UTC Boundary Conditions Interpolated GME-forecasts with ds ~ 60 km and 31 layers (hourly) Hydrostatic pressure at lateral boundaries Data Assimilation Nudging analysis scheme Variational soil moisture analysis SST analysis 00 UTC Snow depth analysis every 6 h

4 SWSA 2003 05.05.2003 LM Total Precipitation [mm/h] 08.Sept.2001, 00 UTC, vv=14-15 h

5 SWSA 2003 05.05.2003 Methods -Neighbourhood Method (NM) -Wavelet Method -Experimental Ensemble Integrations

6 SWSA 2003 05.05.2003 Assumption: LM-forecasts within a spatio-temporal neighbourhood are assumed to constitute a sample of the forecast at the central grid point Neighbourhood Method

7 SWSA 2003 05.05.2003 x x Definition of Neighbourhood I y t

8 SWSA 2003 05.05.2003 Definition of Neighbourhood II Size of Area Form of Area Linear Regressions hshs

9 SWSA 2003 05.05.2003 Definition of the Quantile Function The quantile function x is a function of probability p. If the forecast is distributed according to the probability distribution function F, then x(p) := F -1 (p) for all p  [0, 1]. There is a probability p that the quantile x(p) is greater than the correct forecast. (Method according to Moon & Lall, 1994)

10 SWSA 2003 05.05.2003 Products „Statistically smoothed” fields Quantiles for p = 0.5 Expectation Values Probabilistic Information Quantiles (Probabilities for certain threshold values)

11 SWSA 2003 05.05.2003 LM Total Precipitation [mm/h] 08.Sept.2001, 00 UTC, vv=14-15 h Original ForecastExpectation Values

12 SWSA 2003 05.05.2003 LM Total Precipitation [mm/h] 08.Sept.2001, 00 UTC, vv=14-15 h Original ForecastQuantiles for p=0.9

13 SWSA 2003 05.05.2003 LM T2m [ o C] 08.Sept.2001, 00 UTC, vv=15 h Original ForecastQuantiles for p=0.5

14 SWSA 2003 05.05.2003 Direct model output of the LM for precipitation at a given grid point

15 SWSA 2003 05.05.2003...supplemented by the 50 %-quantile

16 SWSA 2003 05.05.2003...supplemented by more quantiles (forecast of uncertainty)

17 SWSA 2003 05.05.2003...supplemented by the 90 %-quantile (forecast of risk)

18 SWSA 2003 05.05.2003 Data LM forecasts; 1.-15.09.2001; 00 UTC starting time 1 h values; 6-30 h forecast time all SYNOPs available from German stations comparison with nearest land grid point NM-Versions small: 3 time levels (3 h); radius: 3  s (  20 km) medium:3 time levels (3 h); radius: 5  s (  35 km) large:7 time levels (7 h); radius: 7  s (  50 km) Averaging square areas of different sizes temperatures adjusted with -0.65 K/(100 m) Verification

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21 SWSA 2003 05.05.2003 Richardson, D.S., 2001: Measures of skill and value of ensemble prediction systems, their interrelationship and the effect of ensemble size. Q.J.R.Meteorol.Soc., Vol.127, pp. 2473-2489)

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35 SWSA 2003 05.05.2003 Calibration Empirical Approach: use a large data sets of forecasts and observations PRO: covers all relevant effects CON: calibration is dependent on LM-version Theoretical Approach: focus on the effect of limited sample size only PRO: effect can be quantified theoretically, without large data sets calibration is independent of LM-version CON: all other effects are neglected

36 SWSA 2003 05.05.2003 Calibration Procedure: choose probability p of the desired quantile (e.g. p=90%, if you would like to estimate the 90%-quantile) determine sample size M, frequency  of the event and predictability  of the event (a priori) calculate a probability p' = p' (p,M, ,  ) from statistical theory (Richardson, 2001), let‘s say p' = 95% estimate 95%-quantile and redefine it as a 90%-quantile

37 SWSA 2003 05.05.2003 Richardson, D.S., 2001: Measures of skill and value of ensemble prediction systems, their interrelationship and the effect of ensemble size. Q.J.R.Meteorol.Soc., Vol.127, pp. 2473-2489) p p'

38 SWSA 2003 05.05.2003 Preliminary Results of Calibration (small neighbourhood): Determination of p' = p' (p,M, ,  ) : integrate p' = p' (p,M, ,  ) over all possible values of  and  and over M=[1,80] (LM forecasts; 10.-24.07.2002; 00 UTC starting time)

39 SWSA 2003 05.05.2003 Effect of Limited Sample Size on Quantiles for p=0.9 Probability of exceedance of depending on the observed frequency μ for different values of effective sample size M and a prescribed value of σ 2 =0.25  (1-  )

40 SWSA 2003 05.05.2003 Concluding Remarks “Statistically Smoothed” Fields For temperature no mean advantage is to be seen in comparison with simple averaging The results for precipitation are difficult to judge upon; proper choice amongst the various possibilities is still an open question Reliability Diagrams Possible improvement by calibration remains to be explored The results for precipitation clearly demonstrate the need for improving the model (reduce the overforecasting of slight precipitation amounts)

41 SWSA 2003 05.05.2003 Concluding Remarks (ctd.) Application The method might be useful not only for single forecasts but also in combination with small ensembles

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