Involving human forecasters in numerical prediction systems

IF 0.3 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Tethys-Journal of Mediterranean Meteorology & Climatology Pub Date : 2006-01-01 DOI:10.3369/TETHYS.2006.3.08
D. Stensrud, Illes Balears
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Abstract

Human forecasters routinely improve upon the output from numerical weather prediction models and often have keen insight to model biases and shortcomings. This wealth of knowledge about model performance is largely untapped, however, as it is used only at the end point in the forecast process to interpret the model-predicted fields. Yet there is no reason why human forecasters cannot intervene at other earlier times in the numerical weather prediction process, especially when an ensemble forecasting system is in use. Human intervention in ensemble creation may be particularly helpful for rare events, such as severe weather events, that are not predicted well by numerical models. The USA/NOAA SPC/NSSL Spring Program 2003 tested an ensemble generation method in which human forecasters were involved in the ensemble creation process. The forecaster highlighted structures of interest and, using an adjoint model, a set of perturbations were obtained and used to generate a 32-member ensemble. The results show that this experimental ensemble improves upon the operational numerical forecasts of severe weather. The human-generated ensemble is able to provide improved guidance on high-impact weather events, but lacks global dispersion and produces unreliable forecasts for non-hazardous weather events. Further results from an ensemble constructed by combining the operational ensemble perturbations with the human-generated perturbations shows promising skill for the forecast of severe weather while avoiding the problem of limited global dispersion. The value of human beings in the creation of ensembles designed to target specific high- impact weather events is potentially large. Further investigation of the value of forecasters being part of the ensemble creation process is strongly recommended. There remains a lot to learn about how to create ensembles for short-range forecasts of severe weather, and we need to make better use of the skill and experience of human forecasters in this learning process.
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在数值预报系统中涉及人类预报员
人类预报员通常会改进数值天气预报模型的输出,并且通常对模型的偏差和缺点有敏锐的洞察力。然而,这种关于模型性能的丰富知识在很大程度上是未开发的,因为它仅在预测过程的终点用于解释模型预测的字段。然而,人类预报员没有理由不能在数值天气预报过程的其他早期时间进行干预,特别是在使用集合预报系统时。对于数值模式不能很好地预测的罕见事件,如恶劣天气事件,人工干预在集合形成过程中可能特别有帮助。美国/NOAA SPC/NSSL 2003年春季计划测试了一种集合生成方法,其中人类预报员参与了集合创建过程。预报员强调了感兴趣的结构,并使用伴随模型,获得了一组扰动,并用于生成32个成员的系综。结果表明,该实验集合较实际的灾害性天气数值预报有较好的改进。人工生成的集合能够对高影响天气事件提供改进的指导,但缺乏全球分散,对非危险天气事件的预报不可靠。将操作集合扰动与人为扰动相结合构建的集合的进一步结果显示,在避免有限全球离散问题的同时,对恶劣天气的预报具有良好的技能。人类在创造针对特定高影响天气事件的综合系统方面的价值是巨大的。强烈建议进一步研究作为集合创建过程一部分的预报员的价值。关于如何为恶劣天气的短期预报创建集合,还有很多需要学习的地方,我们需要在这个学习过程中更好地利用人类预报员的技能和经验。
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来源期刊
Tethys-Journal of Mediterranean Meteorology & Climatology
Tethys-Journal of Mediterranean Meteorology & Climatology METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
2.80
自引率
13.30%
发文量
0
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