A Constrained Spectral Approximation of Subgrid-Scale Orography on Unstructured Grids

IF 4.4 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Ray Chew, Stamen Dolaptchiev, Maja-Sophie Wedel, Ulrich Achatz
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Abstract

The representation of subgrid-scale orography is a challenge in the physical parameterization of orographic gravity-wave sources in weather forecasting. A significant hurdle is encoding as much physical information with as simple a representation as possible. Other issues include scale awareness, that is, the orographic representation has to change according to the grid cell size and usability on unstructured geodesic grids with non-quadrilateral grid cells. This work introduces a novel spectral analysis method approximating a scale-aware spectrum of subgrid-scale orography on unstructured geodesic grids. The dimension of the physical orographic data is reduced by more than two orders of magnitude in its spectral representation. Simultaneously, the power of the approximated spectrum is close to the physical value. The method is based on well-known least-squares spectral analyses. However, it is robust to the choice of the free parameters, and tuning the algorithm is generally unnecessary. Numerical experiments involving an idealized setup show that this novel spectral analysis performs significantly better than a straightforward least-squares spectral analysis in representing the physical energy of a spectrum. Studies involving real-world topographic data are conducted, and reasonable error scores within ±10% error relative to the maximum physical quantity of interest are achieved across different grid sizes and background wind speeds. The deterministic behavior of the method is investigated along with its principal capabilities and potential biases, and it is shown that the error scores can be iteratively improved if an optimization target is known. Discussions on the method's limitations and broader applicability conclude this work.

Abstract Image

非结构化网格上子网格尺度摄星术的受限光谱近似方法
子网格尺度地貌的表示是天气预报中地貌重力波源物理参数化的一个挑战。一个重要的障碍是用尽可能简单的表示方法编码尽可能多的物理信息。其他问题包括尺度感知,即地形表示必须根据网格单元的大小而改变,以及在非四边形网格单元的非结构化大地网格上的可用性。这项工作介绍了一种新颖的频谱分析方法,该方法可近似非结构化大地网格上子网格尺度地貌的尺度感知频谱。在光谱表示中,物理地貌数据的维度减少了两个数量级以上。同时,近似频谱的功率接近物理值。该方法基于著名的最小二乘光谱分析。不过,该方法对自由参数的选择具有很强的鲁棒性,通常无需对算法进行调整。涉及理想化设置的数值实验表明,在表示光谱的物理能量方面,这种新型光谱分析方法的性能明显优于直接的最小二乘法光谱分析方法。研究涉及真实世界的地形数据,在不同的网格大小和背景风速下,相对于感兴趣的最大物理量的误差在±10%以内,达到了合理的误差分数。对该方法的确定性行为及其主要功能和潜在偏差进行了研究,结果表明,如果已知优化目标,误差分值可以迭代改进。最后还讨论了该方法的局限性和更广泛的适用性。
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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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