Article Type:
Research Article

An Evaluation of the Darwin Area Forecast Experiment Storm Occurrence Forecasts

T. Keenan Bureau of Meteorology Research Centre, Melbourne, Victoria, Australia

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R. Potts Bureau of Meteorology Research Centre, Melbourne, Victoria, Australia

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T. Stevenson Bureau of Meteorology Research Centre, Melbourne, Victoria, Australia

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Print Publication:
01 Sep 1992
DOI:
https://doi.org/10.1175/1520-0434(1992)007<0515:AEOTDA>2.0.CO;2
Page(s):
515–523
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Abstract

Results from real-time forecasting the occurrence of storm activity during “break” and “transition” season flow within two 10-km-radius circles for periods up to 3 h in the tropics near Darwin, Australia (12°S, 131°E), are described. The forecasts, based primarily on the detection of mesoscale convergent boundaries by Doppler radar data, are evaluated in terms of probabilistic and categorical products. Brier skill scores of the forecasts indicate significantly increased accuracy relative to those based on persistence and climatology for lead times less than 90 min, as well as significantly better accuracy than those based on persistence over the entire 3 h. The forecasts provide a more detailed forecast product than do current statistical approaches employed to forecast tropical precipitation.

Abstract

Results from real-time forecasting the occurrence of storm activity during “break” and “transition” season flow within two 10-km-radius circles for periods up to 3 h in the tropics near Darwin, Australia (12°S, 131°E), are described. The forecasts, based primarily on the detection of mesoscale convergent boundaries by Doppler radar data, are evaluated in terms of probabilistic and categorical products. Brier skill scores of the forecasts indicate significantly increased accuracy relative to those based on persistence and climatology for lead times less than 90 min, as well as significantly better accuracy than those based on persistence over the entire 3 h. The forecasts provide a more detailed forecast product than do current statistical approaches employed to forecast tropical precipitation.

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