Energy-based approximation of linear systems with polynomial outputs

IF 2.5 3区计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS

Systems & Control Letters Pub Date : 2025-06-05 DOI:10.1016/j.sysconle.2025.106145

Linus Balicki, Serkan Gugercin

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引用次数: 0

Abstract

Controllability and observability energy functions play a fundamental role in model order reduction and are inherently connected to optimal control problems. For linear dynamical systems the energy functions are known to be quadratic polynomials and various low-rank approximation techniques allow for computing them in a large-scale setting. For nonlinear problems computing the energy functions is significantly more challenging. In this paper, we investigate a special class of nonlinear systems that have a linear state and a polynomial output equation. We show that the energy functions of these systems are again polynomials and investigate under which conditions they can effectively be approximated using low-rank tensors. Further, we introduce a new perspective on the well-established balanced truncation method for linear systems which then readily generalizes to the nonlinear systems under consideration. This new perspective yields a novel energy-based model order reduction procedure that accurately captures the input–output behavior of linear systems with polynomial outputs via a low-dimensional reduced order model. We demonstrate the effectiveness of our approach via two numerical experiments.

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具有多项式输出的线性系统的能量近似

可控性和可观测性能量函数在模型降阶中起着重要的作用，并且与最优控制问题有着内在的联系。对于线性动力系统，能量函数是已知的二次多项式，各种低秩近似技术允许在大规模设置中计算它们。对于非线性问题，计算能量函数具有更大的挑战性。本文研究一类具有线性状态和多项式输出方程的特殊非线性系统。我们证明了这些系统的能量函数是多项式，并研究了在哪些条件下它们可以用低秩张量有效地逼近。此外，我们介绍了一个新的观点，建立平衡截断法的线性系统，然后很容易推广到考虑的非线性系统。这种新的视角产生了一种新的基于能量的模型降阶过程，该过程通过低维降阶模型准确捕获具有多项式输出的线性系统的输入-输出行为。通过两个数值实验证明了该方法的有效性。

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

Systems & Control Letters 工程技术-运筹学与管理科学

CiteScore

4.60

自引率

3.80%

发文量

144

审稿时长

6 months

期刊介绍： Founded in 1981 by two of the pre-eminent control theorists, Roger Brockett and Jan Willems, Systems & Control Letters is one of the leading journals in the field of control theory. The aim of the journal is to allow dissemination of relatively concise but highly original contributions whose high initial quality enables a relatively rapid review process. All aspects of the fields of systems and control are covered, especially mathematically-oriented and theoretical papers that have a clear relevance to engineering, physical and biological sciences, and even economics. Application-oriented papers with sophisticated and rigorous mathematical elements are also welcome.