基于约束对抗训练的垂直风速变异性的深度学习参数化

Donifan Barahona, Katherine H. Breen, Heike Kalesse-Los, Johannes Röttenbacher
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引用次数: 0

摘要

典型的分辨率在十分之一公里的大气模式无法解析在几十到几百米尺度上变化的气包上升动力学。因此,小尺度风波动的特征是垂直风速W的亚网格分布,标准差为σ W。σ W的参数化是表征气溶胶-云相互作用的基础,但它的约束很差。本文利用一种新颖的深度学习技术,开发了一种新的参数化方法,将全球风暴分辨模式模拟数据、W的高频检索数据和气候再分析产品相结合。参数化再现了σ W的观测统计量,并利用从模型模拟中学习到的物理关系来指导观测域之外的外推。在训练阶段纳入观测数据对其性能至关重要。参数化可以在线应用于大尺度大气模式,也可以离线应用于天气预报和再分析产品的输出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deep Learning Parameterization of Vertical Wind Velocity Variability via Constrained Adversarial Training
Abstract Atmospheric models with typical resolution in the tenths of kilometers cannot resolve the dynamics of air parcel ascent, which varies on scales ranging from tens to hundreds of meters. Small-scale wind fluctuations are thus characterized by a subgrid distribution of vertical wind velocity, W , with standard deviation σ W . The parameterization of σ W is fundamental to the representation of aerosol-cloud interactions, yet it is poorly constrained. Using a novel deep learning technique, this work develops a new parameterization for σ W merging data from global storm-resolving model simulations, high-frequency retrievals of W , and climate reanalysis products. The parameterization reproduces the observed statistics of σ W and leverages learned physical relations from the model simulations to guide extrapolation beyond the observed domain. Incorporating observational data during the training phase was found to be critical for its performance. The parameterization can be applied online within large-scale atmospheric models, or offline using output from weather forecasting and reanalysis products.
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