Proper Orthogonal Decomposition in Optimal Control of Fluids

机译：流体最优控制中的正交正交分解

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In this article, we present a reduced order modeling approach suitable for active control of fluid dynamical systems based on proper orthogonal decomposition (POD). The rationale behind the reduced order modeling is that numerical simulation of Navier-Stokes equations is still too costly for the purpose of optimization and control of unsteady flows. We examine the possibility of obtaining reduced order models that reduce computational complexity associated with the Navier-Stokes equations while capturing the essential dynamics by using the POD. The POD allows extraction of certain optimal set of basis functions, perhaps few, from a computational or experimental data-base through an eigenvalue analysis. The solution is then obtained as a linear combination of these optimal set of basis functions by means of Galerkin projection. This makes it attractive for optimal control and estimation of systems governed by partial differential equations. We here use it in active control of fluid flows governed by the Navier-Stokes equations. We show that the resulting reduced order model can be very efficient for the computations of optimization and control problems in unsteady flows. Finally, implementational issues and numerical experiments are presented for simulations and optimal control of fluid flow through channels.

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Ravindran, S. S.;
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年度 1999
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正文语种 eng
中图分类工业技术;
关键词
Navier-stokes equation; Turbulent flow; Optimal control; Unsteady flow; Active control; Fluid flow; Galerkin method; Partial differential equations; Orthogonal functions; Dynamical systems; Eigenvalues; Simulation; Models;

机译：Navier-stokes方程;湍流;最优控制;非定常流;主动控制;流体流动; Galerkin方法;偏微分方程;正交函数;动力系统;特征值;模拟;模型;

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专利

1. A reduced-order approach for optimal control of fluids using proper orthogonal decomposition [J] . S. S. Ravindran International Journal for Numerical Methods in Fluids . 2000,第5期

机译：使用适当的正交分解的最优控制流体的降阶方法
2. Proper Orthogonal Decomposition and Extended-Proper Orthogonal Decomposition Analysis of Pressure Fluctuations and Vortex Structures Inside a Steam Turbine Control Valve [J] . Wang Peng, Ma Hongyu, Liu Yingzheng Journal of Engineering for Gas Turbines and Power . 2019,第4期

机译：汽轮机控制阀内压力波动和涡旋结构的正确正交分解和扩展正确正交分解分析
3. Optimal control of water flooding reservoir using proper orthogonal decomposition [J] . Sun Xian-hang, Xu Ming-hai Journal of Computational and Applied Mathematics . 2017,第期

机译：采用适当正交分解的水淹水库的最优控制
4. Computational Fluid Dynamics and Proper Orthogonal Decomposition based control of flow over supersonic cavities [C] . Kubra Asena Gelisli, Selin Aradag, Yigit Tascioglu, AIAA/CEAS aeroacoustics conference . 2019

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5. Low-order dynamical modeling and intelligent control of thermo-fluid systems via proper orthogonal decomposition. [D] . Sahan, Ridvan Amir. 1997

机译：通过适当的正交分解对热流体系统进行低阶动力学建模和智能控制。
6. Merging Computational Fluid Dynamics and 4D Flow MRI Using Proper Orthogonal Decomposition and Ridge Regression [O] . Ali Bakhshinejad, Ahmadreza Baghaie, Alireza Vali, -1

机译：使用正确的正交分解和岭回归将计算流体力学和4D流MRI合并
7. Nonlinear Robust and Optimal Control via Proper Orthogonal Decomposition [O] . Georges, Didier 2013

机译：适当正交分解的非线性鲁棒最优控制
8. Proper Orthogonal Decomposition in Optimal Control of Fluids [R] . Ravindran, S. S. 1999

机译：流体最优控制中的正交正交分解

Proper Orthogonal Decomposition in Optimal Control of Fluids

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