Efficient Super-Resolution of Near-Surface Climate Modeling Using the Fourier Neural Operator

IF 4.4 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Peishi Jiang, Zhao Yang, Jiali Wang, Chenfu Huang, Pengfei Xue, T. C. Chakraborty, Xingyuan Chen, Yun Qian
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引用次数: 0

Abstract

Downscaling methods are critical in efficiently generating high-resolution atmospheric data. However, state-of-the-art statistical or dynamical downscaling techniques either suffer from the high computational cost of running a physical model or require high-resolution data to develop a downscaling tool. Here, we demonstrate a recently proposed zero-shot super-resolution method, the Fourier neural operator (FNO), to efficiently perform downscaling without the need for high-resolution data. Because the FNO learns dynamics in Fourier space, FNO is a resolution-invariant emulator; it can be trained at a coarse resolution and produces emulation at any high resolution. We applied FNO to downscale a 4-km resolution Weather Research and Forecasting (WRF) Model simulation of near-surface heat-related variables over the Great Lakes region. The FNO is driven by the atmospheric forcings and topographic features used in the WRF model at the same resolution. We incorporated a physics-constrained loss in FNO by using the Clausius–Clapeyron relation to better constrain the relations among the emulated states. Trained on merely 600 WRF snapshots at 4-km resolution, the FNO shows comparable performance with a widely-used convolutional network, U-Net, achieving averaged modified Kling–Gupta Efficiency of 0.88 and 0.94 on the test data set for temperature and pressure, respectively. We then employed the FNO to produce 1-km emulations to reproduce the fine climate features. Further, by taking the WRF simulation as ground truth, we show consistent performances at the two resolutions, suggesting the reliability of FNO in producing high-resolution dynamics. Our study demonstrates the potential of using FNO for zero-shot super-resolution in generating first-order estimation on atmospheric modeling.

基于傅里叶神经算子的近地表气候模拟的高效超分辨率
降尺度方法是有效生成高分辨率大气数据的关键。然而,最先进的统计或动态降尺度技术要么受到运行物理模型的高计算成本的影响,要么需要高分辨率的数据来开发降尺度工具。在这里,我们展示了一种最近提出的零镜头超分辨率方法,即傅立叶神经算子(FNO),它可以在不需要高分辨率数据的情况下有效地执行降尺度。由于FNO在傅里叶空间中学习动态,因此FNO是一种分辨率不变的仿真器;它可以在粗分辨率下训练,并在任何高分辨率下产生仿真。我们利用FNO对大湖区近地表热相关变量的4 km分辨率WRF模式进行了降尺度模拟。在相同分辨率下,大气强迫和地形特征驱动着FNO。我们利用Clausius-Clapeyron关系,在FNO中加入了物理约束损失,以更好地约束模拟状态之间的关系。仅在600张分辨率为4公里的WRF快照上进行训练,FNO的性能与广泛使用的卷积网络U-Net相当,在温度和压力测试数据集上的平均修正克林-古普特效率分别为0.88和0.94。然后,我们利用FNO进行了1公里的模拟,以再现精细的气候特征。此外,通过将WRF模拟作为基础事实,我们在两种分辨率下显示出一致的性能,表明FNO在产生高分辨率动态方面的可靠性。我们的研究证明了利用FNO进行零射击超分辨率在大气模拟中产生一阶估计的潜力。
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来源期刊
Journal of Advances in Modeling Earth Systems
Journal of Advances in Modeling Earth Systems METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
11.40
自引率
11.80%
发文量
241
审稿时长
>12 weeks
期刊介绍: The Journal of Advances in Modeling Earth Systems (JAMES) is committed to advancing the science of Earth systems modeling by offering high-quality scientific research through online availability and open access licensing. JAMES invites authors and readers from the international Earth systems modeling community. Open access. Articles are available free of charge for everyone with Internet access to view and download. Formal peer review. Supplemental material, such as code samples, images, and visualizations, is published at no additional charge. No additional charge for color figures. Modest page charges to cover production costs. Articles published in high-quality full text PDF, HTML, and XML. Internal and external reference linking, DOI registration, and forward linking via CrossRef.
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