Gain margins for multivariable control systems

29th IEEE Conference on Decision and Control Pub Date : 1990-12-05 DOI:10.1109/CDC.1990.203609
J. R. Bar-on, E. Jonckheere
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引用次数: 8

Abstract

The phase margin for a multivariable system is defined by examining the unitary portion of the polar decomposition of a perturbation, Delta , in the feedback path. A dual result defining the gain margin for a multivariable system is derived by examining the positive definite hermitian (PDH) portion of the polar decompositions for nonsingular perturbations. This study focuses on the multivariable gain margin. The main result is an extension of the classical SISO (single input single output) concept for all PDH matrices in the feedback path whose gain is less than the gain margin of the system. Calculation of the gain margin requires solving a constrained optimization problem which is almost a complete dual of the constrained optimization problem solved when calculating the phase margin.<>
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多变量控制系统的增益边际
多变量系统的相位裕度是通过检查反馈路径中扰动Delta的极性分解的酉部分来定义的。通过研究非奇异扰动的极分解的正定厄米特部分,导出了定义多变量系统增益裕度的对偶结果。本研究的重点是多变量增益裕度。主要结果是扩展了经典的单输入单输出(SISO)概念,适用于增益小于系统增益边际的反馈路径中的所有PDH矩阵。增益裕度的计算需要解决一个约束优化问题,这个问题几乎是计算相位裕度时所解决的约束优化问题的完全对偶。
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29th IEEE Conference on Decision and Control
29th IEEE Conference on Decision and Control
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