Leading the Lorenz-63 system toward the prescribed regime by model predictive control coupled with data assimilation

IF 2.4 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Nonlinear Processes in Geophysics Pub Date : 2024-01-30 DOI:10.5194/npg-2024-4

Fumitoshi Kawasaki, Shunji Kotsuki

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Abstract

Abstract. In recent years, concerns have been raised regarding the intensification and increase of extreme weather events such as torrential rainfall and typhoons. To mitigate the damage caused by weather-induced disasters, recent studies have started developing weather control technologies to lead the weather to a desirable direction with feasible manipulations. This study proposes introducing the model predictive control (MPC), an advanced control method explored in control engineering, into the framework of the control simulation experiment (CSE). In contrast to previous CSE studies, the proposed method explicitly considers physical constraints such as the maximum allowable manipulations within the cost function of the MPC. As the first step toward applying the MPC to real weather control, this study performed a series of MPC experiments with the Lorenz-63 model. Our results showed that the Lorenz-63 system can be led to the positive regime with control inputs determined by the MPC. Furthermore, the MPC significantly reduced necessary forecast length compared to earlier CSE studies. It was beneficial to select a member showing a larger regime shift for the initial state when dealing with uncertainty in initial states.

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通过模型预测控制与数据同化相结合，引导洛伦兹-63 系统走向规定系统

摘要近年来，暴雨和台风等极端天气事件的加剧和增加引起了人们的关注。为了减轻由天气引发的灾害所造成的损失，近年来的研究开始开发天气控制技术，通过可行的操作将天气引向理想的方向。本研究建议在控制模拟实验（CSE）框架中引入模型预测控制（MPC）这一在控制工程领域探索出的先进控制方法。与以往的 CSE 研究不同，本研究提出的方法明确考虑了物理约束条件，如 MPC 成本函数中允许的最大操作量。作为将 MPC 应用于实际天气控制的第一步，本研究使用 Lorenz-63 模型进行了一系列 MPC 实验。结果表明，洛伦兹-63 系统可以通过 MPC 确定的控制输入进入正态。此外，与早期的 CSE 研究相比，MPC 大大缩短了必要的预测时间。在处理初始状态的不确定性时，选择一个初始状态表现出较大体制转变的成员是有益的。

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

Nonlinear Processes in Geophysics 地学-地球化学与地球物理

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Nonlinear Processes in Geophysics (NPG) is an international, inter-/trans-disciplinary, non-profit journal devoted to breaking the deadlocks often faced by standard approaches in Earth and space sciences. It therefore solicits disruptive and innovative concepts and methodologies, as well as original applications of these to address the ubiquitous complexity in geoscience systems, and in interacting social and biological systems. Such systems are nonlinear, with responses strongly non-proportional to perturbations, and show an associated extreme variability across scales.