Variational Data Assimilation Method Using Parallel Dual Populations Particle Swarm Optimization Algorithm

Q3 Multidisciplinary
Zhongjian Wu, Junyan Li
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引用次数: 0

Abstract

In recent years, numerical weather forecasting has been increasingly emphasized. Variational data assimilation furnishes precise initial values for numerical forecasting models, constituting an inherently nonlinear optimization challenge. The enormity of the dataset under consideration gives rise to substantial computational burdens, complex modeling, and high hardware requirements. This paper employs the Dual-Population Particle Swarm Optimization (DPSO) algorithm in variational data assimilation to enhance assimilation accuracy. By harnessing parallel computing principles, the paper introduces the Parallel Dual-Population Particle Swarm Optimization (PDPSO) Algorithm to reduce the algorithm processing time. Simulations were carried out using partial differential equations, and comparisons in terms of time and accuracy were made against DPSO, the Dynamic Weight Particle Swarm Algorithm (PSOCIWAC), and the Time-Varying Double Compression Factor Particle Swarm Algorithm (PSOTVCF). Experimental results indicate that the proposed PDPSO outperforms PSOCIWAC and PSOTVCF in convergence accuracy and is comparable to DPSO. Regarding processing time, PDPSO is 40% faster than PSOCIWAC and PSOTVCF and 70% faster than DPSO.
使用并行双种群粒子群优化算法的变分数据同化方法
近年来,数值天气预报越来越受到重视。变分数据同化为数值预报模式提供精确的初始值,这本身就是一个非线性优化挑战。由于所考虑的数据集非常庞大,因此会带来巨大的计算负担、复杂的建模和较高的硬件要求。本文在变分数据同化中采用了双群粒子群优化(DPSO)算法,以提高同化精度。通过利用并行计算原理,本文引入了并行双群粒子群优化(PDPSO)算法,以缩短算法处理时间。利用偏微分方程进行了仿真,并与 DPSO、动态权重粒子群算法(PSOCIWAC)和时变双压缩因子粒子群算法(PSOTVCF)进行了时间和精度方面的比较。实验结果表明,所提出的 PDPSO 在收敛精度上优于 PSOCIWAC 和 PSOTVCF,并与 DPSO 相当。在处理时间方面,PDPSO 比 PSOCIWAC 和 PSOTVCF 快 40%,比 DPSO 快 70%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Wuhan University Journal of Natural Sciences
Wuhan University Journal of Natural Sciences Multidisciplinary-Multidisciplinary
CiteScore
0.40
自引率
0.00%
发文量
2485
期刊介绍: Wuhan University Journal of Natural Sciences aims to promote rapid communication and exchange between the World and Wuhan University, as well as other Chinese universities and academic institutions. It mainly reflects the latest advances being made in many disciplines of scientific research in Chinese universities and academic institutions. The journal also publishes papers presented at conferences in China and abroad. The multi-disciplinary nature of Wuhan University Journal of Natural Sciences is apparent in the wide range of articles from leading Chinese scholars. This journal also aims to introduce Chinese academic achievements to the world community, by demonstrating the significance of Chinese scientific investigations.
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