基于推导的数据同化中的自适应参数选择

IF 6.9 1区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Computer Methods in Applied Mechanics and Engineering Pub Date : 2024-11-15 DOI:10.1016/j.cma.2024.117526

Aytekin Çıbık , Rui Fang , William Layton , Farjana Siddiqua

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引用次数: 0

摘要

数据同化将（不完善的）水流物理规律知识与（噪声、时滞和其他不完善的）观测数据结合起来，以产生更准确的水流统计预测结果。推移同化法（1964 年提出）虽然不是最佳方法，但很容易实现，其分析方法也很明确和成熟。Larios 等人（2019 年）甚至已经确定，在推移参数 χ 和观测点密度 H 的条件下，推移在时间上的精度是一致的。剩下的一个问题是，推算需要用户选择一个关键参数。通过先验（最坏情况）分析得出的该参数所需的条件非常苛刻（本文第 2.1 节），远远超出了计算经验中发现的有效条件。本报告提出的一种解决方案是自适应参数选择。本报告开发、分析、测试并比较了两种自适应推移参数的方法。一种方法结合了分析和对局部流动行为的响应。另一种方法仅基于对流动行为的响应。比较结果表明，这两种方法都很容易实施，而且产生的挤压参数有效值比先验分析法小得多。

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Adaptive parameter selection in nudging based data assimilation

Data assimilation combines (imperfect) knowledge of a flow’s physical laws with (noisy, time-lagged, and otherwise imperfect) observations to produce a more accurate prediction of flow statistics. Assimilation by nudging (from 1964), while non-optimal, is easy to implement and its analysis is clear and well-established. Nudging’s uniform in time accuracy has even been established under conditions on the nudging parameter

χ

and the density of observational locations,

H

, Larios et al. (2019). One remaining issue is that nudging requires the user to select a key parameter. The conditions required for this parameter, derived through á priori (worst case) analysis are severe (Section 2.1 herein) and far beyond those found to be effective in computational experience. One resolution, developed herein, is self-adaptive parameter selection. This report develops, analyzes, tests, and compares two methods of self-adaptation of nudging parameters. One combines analysis and response to local flow behavior. The other is based only on response to flow behavior. The comparison finds both are easily implemented and yields effective values of the nudging parameter much smaller than those of á priori analysis.

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来源期刊

Computer Methods in Applied Mechanics and Engineering 工程技术-工程：综合

CiteScore

12.70

自引率

15.30%

发文量

719

审稿时长

44 days

期刊介绍： Computer Methods in Applied Mechanics and Engineering stands as a cornerstone in the realm of computational science and engineering. With a history spanning over five decades, the journal has been a key platform for disseminating papers on advanced mathematical modeling and numerical solutions. Interdisciplinary in nature, these contributions encompass mechanics, mathematics, computer science, and various scientific disciplines. The journal welcomes a broad range of computational methods addressing the simulation, analysis, and design of complex physical problems, making it a vital resource for researchers in the field.