Synthesis of Control Systems on the Basis of a Canonical Vector Decomposition of Random Sequences

2020 IEEE Problems of Automated Electrodrive. Theory and Practice (PAEP) Pub Date : 2020-09-21 DOI:10.1109/PAEP49887.2020.9240808

V. Shebanin, I. Atamanyuk, Y. Kondratenko

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Abstract

Method of the modeling of stochastic systems of control for an arbitrary number of input parameters and the duration of the observation process is obtained in the work. The method is based on the canonical vector decomposition of of the random sequence of change of the coordinates of an investigated object. Optimal solutions of the control problems for the case when parameters are measured with errors and, provided that true values of a coordinates are known, are obtained. The schemes reflecting the peculiarities of the determination of algorithm parameters and functioning regularities of a stochastic model are introduced in the work. The proposed approach can be successfully implemented for design and investigations of the control systems for critical applications, which include such important components as MEMS (microelectromechanical systems). Besides, suggested models can be efficiently applied for the development of the strategies of embedded systems design, as well as for testing, reliability investigations.

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基于随机序列正则向量分解的控制系统综合

研究了随机控制系统在任意数量输入参数和观测过程持续时间下的建模方法。该方法基于对被测对象坐标随机变化序列的正则向量分解。得到了参数测量有误差情况下控制问题的最优解，以及在坐标的真值已知的情况下。本文介绍了反映随机模型的算法参数确定特性和作用规律的方案。所提出的方法可以成功地用于关键应用的控制系统的设计和研究，其中包括MEMS(微机电系统)等重要组件。此外，所提出的模型可以有效地应用于嵌入式系统设计策略的制定，以及测试和可靠性调查。

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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2020 IEEE Problems of Automated Electrodrive. Theory and Practice (PAEP)

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