Hourly probabilistic snow forecasts over complex terrain: a hybrid ensemble postprocessing approach

Q1 Mathematics

Advances in Statistical Climatology, Meteorology and Oceanography Pub Date : 2018-12-14 DOI:10.5194/ASCMO-4-65-2018

R. Stauffer, G. Mayr, Jakob W. Messner, A. Zeileis

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引用次数: 22

Abstract

Abstract. Accurate and high-resolution snowfall and fresh snow forecasts are important for a range of economic sectors as well as for the safety of people and infrastructure, especially in mountainous regions. In this article a new hybrid statistical postprocessing method is proposed, which combines standardized anomaly model output statistics (SAMOS) with ensemble copula coupling (ECC) and a novel re-weighting scheme to produce spatially and temporally high-resolution probabilistic snow forecasts. Ensemble forecasts and hindcasts of the European Centre for Medium-Range Weather Forecasts (ECMWF) serve as input for the statistical postprocessing method, while measurements from two different networks provide the required observations.This new approach is applied to a region with very complex topography in the eastern European Alps. The results demonstrate that the new hybrid method allows one not only to provide reliable high-resolution forecasts, but also to combine different data sources with different temporal resolutions to create hourly probabilistic and physically consistent predictions.

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复杂地形上逐小时概率降雪预报：一种混合集成后处理方法

摘要准确和高分辨率的降雪和新雪预报对一系列经济部门以及人民和基础设施的安全都很重要，尤其是在山区。本文提出了一种新的混合统计后处理方法，该方法将标准化异常模型输出统计（SAMOS）与系综copula耦合（ECC）相结合，并提出了一个新的重新加权方案，以生成空间和时间上高分辨率的概率雪预报。欧洲中期天气预报中心（ECMWF）的综合预报和后报是统计后处理方法的输入，而来自两个不同网络的测量提供了所需的观测结果。这一新方法适用于东欧阿尔卑斯山一个地形非常复杂的地区。结果表明，新的混合方法不仅可以提供可靠的高分辨率预测，还可以将不同时间分辨率的不同数据源结合起来，创建每小时概率和物理一致的预测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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