Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model

Yuqing Lin; Tianhao Wen; Lei Chen; Q. H. Wu; Yang Liu

doi:10.17775/CSEEJPES.2024.01170

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Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model

Special Section Papers | 更新时间：2025-11-20

- Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model
- Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model
- 中国电机工程学会电力与能源系统学报(英文) 2025年11卷第1期页码：24-37
- 作者机构：
  
  School of Electric Power Engineering, South China University of Technology,Guangzhou,China
- 作者简介：
- 基金信息：
- DOI：10.17775/CSEEJPES.2024.01170
  中图分类号：
- 纸质出版：2025
- 稿件说明：
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Yuqing Lin, Tianhao Wen, Lei Chen, 等. Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model[J]. 中国电机工程学会电力与能源系统学报(英文), 2025,11(1):24-37.

Yuqing Lin, Tianhao Wen, Lei Chen, et al. Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model[J]. CSEE Journal of Power and Energy Systems, 2025, 11(1): 24-37.
Yuqing Lin, Tianhao Wen, Lei Chen, 等. Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model[J]. 中国电机工程学会电力与能源系统学报(英文), 2025,11(1):24-37. DOI： 10.17775/CSEEJPES.2024.01170.

Yuqing Lin, Tianhao Wen, Lei Chen, et al. Estimating Transient Stability Regions of Large-Scale Power Systems Part I: Koopman Operator and Reduced-Order Model[J]. CSEE Journal of Power and Energy Systems, 2025, 11(1): 24-37. DOI： 10.17775/CSEEJPES.2024.01170.

摘要

Abstract

This paper presents an estimation of transient stability regions for large-scale power systems. In Part I

a Koopman operator based model reduction (KOMR) method is proposed to derive a low-order dynamical model with reasonable accuracy for transient stability analysis of large-scale power systems. Unlike traditional reduction methods based on linearized models

the proposed method does not require linearization

but captures dominant modes of the original nonlinear dynamics by employing a Koopman operator defined in an infinite-dimensional observable space. Combined with the Galerkin projection

the obtained dominant Koopman eigenvalues and modes produce a reduced-order nonlinear model. To approximate the Koopman operator with sufficient accuracy

we introduce a Polynomial-based Multi-trajectory Kernel Dynamic Mode Decomposition (PMK-DMD) algorithm

which outperforms traditional DMD in various scenarios. In the end

the proposed method is applied to the IEEE 10-machine-39-bus power system and IEEE 16-machine-68-bus power system

which demonstrates that our method is significantly superior to the modal analysis method in both qualitative and quantitative aspects.

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