Complementing Dynamical Downscaling With Super-Resolution Convolutional Neural Networks

被引：0

作者：

Rastogi, Deeksha ^{[1
]}

Niu, Haoran ^{[1
]}

Passarella, Linsey ^{[2
]}

Mahajan, Salil ^{[1
]}

Kao, Shih-Chieh ^{[3
]}

Vahmani, Pouya ^{[4
]}

Jones, Andrew D. ^{[4
,5
]}

机构：

[1] Oak Ridge Natl Lab, Computat Sci & Engn Div, Oak Ridge, TN 37830 USA

[2] Oak Ridge Natl Lab, Cyber Resilience & Intelligence Div, Oak Ridge, TN USA

[3] Oak Ridge Natl Lab, Environm Sci Div, Oak Ridge, TN USA

[4] Lawrence Berkeley Natl Lab, Climate & Ecosyst Sci Div, Berkeley, CA USA

[5] Univ Calif Berkeley, Energy & Resources Grp, Berkeley, CA USA

来源：

GEOPHYSICAL RESEARCH LETTERS | 2025年 / 52卷 / 04期

关键词：

CLIMATE; TEMPERATURE; PROJECTIONS;

D O I：

10.1029/2024GL111828

中图分类号：

P [天文学、地球科学];

学科分类号：

07 ;

摘要：

Despite advancements in Artificial Intelligence (AI) methods for climate downscaling, significant challenges remain for their practicality in climate research. Current AI-methods exhibit notable limitations, such as limited application in downscaling Global Climate Models (GCMs), and accurately representing extremes. To address these challenges, we implement an AI-based methodology using super-resolution convolutional neural networks (SRCNN), trained and evaluated on 40 years of daily precipitation data from a reanalysis and a high-resolution dynamically downscaled counterpart. The dynamical downscaled simulations, constrained using spectral nudging, enable the replication of historical events at a higher resolution. This allows the SRCNN to emulate dynamical downscaling effectively. Modifications, such as incorporating elevation data and data pre-processing enhances overall model performance, while using exponential and quantile loss functions improve the simulation of extremes. Our findings show SRCNN models efficiently and skillfully downscale precipitation from GCMs. Future work will expand this methodology to downscale additional variables for future climate projections.

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页数：11

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