Deep Learning for Koopman Operator Estimation in Idealized Atmospheric Dynamics

David Millard, Arielle Carr, Stéphane Gaudreault
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Abstract

Deep learning is revolutionizing weather forecasting, with new data-driven models achieving accuracy on par with operational physical models for medium-term predictions. However, these models often lack interpretability, making their underlying dynamics difficult to understand and explain. This paper proposes methodologies to estimate the Koopman operator, providing a linear representation of complex nonlinear dynamics to enhance the transparency of data-driven models. Despite its potential, applying the Koopman operator to large-scale problems, such as atmospheric modeling, remains challenging. This study aims to identify the limitations of existing methods, refine these models to overcome various bottlenecks, and introduce novel convolutional neural network architectures that capture simplified dynamics.
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深度学习用于理想化大气动力学中的库普曼算子估计
深度学习正在给天气预报带来革命性的变化,新的数据驱动模型的准确性可与形成中期预测的业务物理模型相媲美。然而,这些模型往往缺乏可解释性,使其基本动态难以理解和解释。本文提出了估计库普曼算子的方法,为复杂的非线性动力学提供线性表示,以提高数据驱动模型的透明度。尽管库普曼算子具有潜力,但将其应用于大气建模等大尺度问题仍具有挑战性。本研究旨在找出现有方法的局限性,完善这些模型以克服各种瓶颈,并引入新的卷积神经网络架构来捕捉简化的动态。
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