ℋ2 gain-scheduled design subject to inexact measurements: performance comparison of two models for additive uncertainty

2019 IEEE CHILEAN Conference on Electrical, Electronics Engineering, Information and Communication Technologies (CHILECON) Pub Date : 2019-11-01 DOI:10.1109/CHILECON47746.2019.8988022

J. M. Palma, C. F. Morais, R. Oliveira

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Abstract

This paper investigates the problem of ℋ2 gain-scheduled design (control and filtering) for LPV systems where the scheduling parameters are affected by additive noises. The purpose is to analyze the impact on the ℋ2 performance of two models commonly used to model the additive uncertainty, one considering that the bounds for the noise parameters are dependent of the values of the scheduling parameters (the saturation effect is taken into account) and the other not. In this sense, a control design example is presented to illustrate that if the saturation effect is considered, a finite and smaller upper bound to the ℋ2 norm is achieved and, on the other hand, if the saturation is neglected, the system may be not stabilized. A filter design example is also presented to show that both the ℋ2 guaranteed cost and the associated time-dependent performance indexes (MSE and SDMSE) are reduced when considering saturation.

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不精确测量下的增益计划设计:两种模型的性能比较

研究了受加性噪声影响的LPV系统的增益调度设计(控制和滤波)问题。目的是分析两种常用的加性不确定性模型对h - 2性能的影响，其中一种考虑噪声参数的边界依赖于调度参数的值(考虑了饱和效应)，另一种不依赖于调度参数的值。在这个意义上，给出了一个控制设计实例，说明如果考虑饱和效应，可以得到一个有限且较小的h - 2范数上界;反之，如果忽略饱和效应，系统可能不稳定。最后给出了一个滤波器的设计实例，说明在考虑饱和的情况下，降低了h 2保证代价和相关的时间相关性能指标(MSE和SDMSE)。

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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2019 IEEE CHILEAN Conference on Electrical, Electronics Engineering, Information and Communication Technologies (CHILECON)

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