Litcius/Paper detail

Deep Learning Forecast Uncertainty for Precipitation over the Western United States

Weiming Hu, Mohammadvaghef Ghazvinian, William E. Chapman, Agniv Sengupta, F. Martin Ralph, Luca Delle Monache

2023Monthly Weather Review31 citationsDOIOpen Access PDF

Abstract

Abstract Reliably quantifying uncertainty in precipitation forecasts remains a critical challenge. This work examines the application of a deep learning (DL) architecture, Unet, for postprocessing deterministic numerical weather predictions of precipitation to improve their skills and for deriving forecast uncertainty. Daily accumulated 0–4-day precipitation forecasts are generated from a 34-yr reforecast based on the West Weather Research and Forecasting (West-WRF) mesoscale model, developed by the Center for Western Weather and Water Extremes. The Unet learns the distributional parameters associated with a censored, shifted gamma distribution. In addition, the DL framework is tested against state-of-the-art benchmark methods, including an analog ensemble, nonhomogeneous regression, and mixed-type meta-Gaussian distribution. These methods are evaluated over four years of data and the western United States. The Unet outperforms the benchmark methods at all lead times as measured by continuous ranked probability and Brier skill scores. The Unet also produces a reliable estimation of forecast uncertainty, as measured by binned spread–skill relationship diagrams. Additionally, the Unet has the best performance for extreme events (i.e., the 95th and 99th percentiles of the distribution) and for these cases, its performance improves as more training data are available. Significance Statement Accurate precipitation forecasts are critical for social and economic sectors. They also play an important role in our daily activity planning. The objective of this research is to investigate how to use a deep learning architecture to postprocess high-resolution (4 km) precipitation forecasts and generate accurate and reliable forecasts with quantified uncertainty. The proposed approach performs well with extreme cases and its performance improves as more data are available in training.

Topics & Concepts

Quantitative precipitation forecastForecast skillPrecipitationBenchmark (surveying)ClimatologyMesoscale meteorologyPercentileWeather Research and Forecasting ModelEnvironmental scienceMeteorologyModel output statisticsConsensus forecastComputer scienceEconometricsStatisticsMathematicsGeographyGeologyGeodesyMeteorological Phenomena and SimulationsClimate variability and modelsPrecipitation Measurement and Analysis