Local temperature forecasts based on statistical post-processing of numerical weather prediction data
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Local temperature forecasts based on statistical post-processing of numerical weather prediction data. / Alerskans, Emy; Kaas, Eigil.
In: Meteorological Applications, Vol. 28, No. 4, 2006, 01.07.2021.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Local temperature forecasts based on statistical post-processing of numerical weather prediction data
AU - Alerskans, Emy
AU - Kaas, Eigil
PY - 2021/7/1
Y1 - 2021/7/1
N2 - Six adaptive, short-term post-processing methods for correcting systematic errors in numerical weather prediction (NWP) forecasts of near-surface air temperatures using local meteorological observations are assessed and compared. The methods tested are based on the simple moving average and the more advanced Kalman filter. Forecasts from the rather coarse-resolution global NWP model Global Forecast System (GFS) and the regional high-resolution NWP model HARMONIE are post-processed, and the results are evaluated for 100 private weather stations in Denmark. The performance of the post-processing methods differs depending on the NWP model. Overall, the combined moving average and a so-called lead time Kalman filter performs the best. The moving average was shown to be superior to a diurnal bias correction Kalman filter at removing the longer-term systematic errors for HARMONIE forecast data and comparable for GFS forecast data. Subsequent application of the lead time Kalman filter corrects for the short-term errors using the real-time forecast error. The post-processing method is adaptive and there is no need for a long record of observations or a historical archive of forecasts.
AB - Six adaptive, short-term post-processing methods for correcting systematic errors in numerical weather prediction (NWP) forecasts of near-surface air temperatures using local meteorological observations are assessed and compared. The methods tested are based on the simple moving average and the more advanced Kalman filter. Forecasts from the rather coarse-resolution global NWP model Global Forecast System (GFS) and the regional high-resolution NWP model HARMONIE are post-processed, and the results are evaluated for 100 private weather stations in Denmark. The performance of the post-processing methods differs depending on the NWP model. Overall, the combined moving average and a so-called lead time Kalman filter performs the best. The moving average was shown to be superior to a diurnal bias correction Kalman filter at removing the longer-term systematic errors for HARMONIE forecast data and comparable for GFS forecast data. Subsequent application of the lead time Kalman filter corrects for the short-term errors using the real-time forecast error. The post-processing method is adaptive and there is no need for a long record of observations or a historical archive of forecasts.
KW - Kalman filter
KW - local weather forecasts
KW - NWP
KW - post-processing
KW - WIND-SPEED FORECASTS
KW - KALMAN FILTER
KW - LIMITED-AREA
KW - MESOSCALE
KW - AGROMETEOROLOGY
KW - PREDICTABILITY
KW - IMPROVEMENTS
KW - ERRORS
KW - MOS
U2 - 10.1002/met.2006
DO - 10.1002/met.2006
M3 - Journal article
VL - 28
JO - Meteorological Applications
JF - Meteorological Applications
SN - 1350-4827
IS - 4
M1 - 2006
ER -
ID: 279262672