On controllability and observability of multichannel automatic control systems in the synthesis by the modal method using the polynomial matrix decomposition of the object and controller

Digital Technology Security Pub Date : 2022-09-29 DOI:10.17212/2782-2230-2022-3-26-48

A. Voevoda, V. Shipagin

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Abstract

When considering the issue of synthesis of an automatic control system by a modular method using a polynomial decomposition of the transfer functions of an object and a controller, synthesis algorithms for fully controlled systems are proposed. However, the question arises about the possibilities of using this algorithm if this condition is not met. The consideration of this is-sue turned out to be especially relevant for multichannel models of objects with a non-square transfer function (having an unequal number of input and output channels). It is shown that for some fundamental terms of the theory of automatic control, such as controllability, reachability, observability, stability and some others, there are special definitions of them in the case of considering this type of objects. The term non‒square object is proposed for use, which is used mainly in foreign literature. Some restrictions on the modal synthesis of regulators by a method using a polynomial matrix separation of the object and the regulator are considered. Examples of internally and asymptotically unstable systems are given. A hypothesis is put forward about the stability of the controlled system. An example of a multichannel system "inverted pendulum on a cart" is considered, which is an object with a non-square matrix transfer function (in this example, the number of input actions is less than the number of output parameters). Using the static characteristics of this object, it is demonstrated that not always controlled systems can be stabilized in a given position. For example, in the case of setting the desired angle of an inverted pendulum other than zero, it is impossible to hold the position of the cart in a given coordinate. At the same time, if you set the angle at the equilibrium point as the desired angle of the inverted pendulum, then stabilization of the cart at a given coordinate becomes possible.

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多通道自动控制系统的可控性和可观察性问题，采用模态法对目标和控制器进行多项式矩阵分解

针对采用对象和控制器传递函数多项式分解的模块化方法合成自动控制系统的问题，提出了全控制系统的综合算法。然而，如果不满足这个条件，使用这种算法的可能性就会出现问题。考虑这个问题对于具有非平方传递函数(具有不相等数量的输入和输出通道)的对象的多通道模型特别相关。证明了自动控制理论中的一些基本术语，如可控性、可达性、可观察性、稳定性等，在考虑这类对象时，有其特殊的定义。建议使用非方形对象一词，该词主要用于外国文学。考虑了利用对象与调节器的多项式矩阵分离方法对调节器模态综合的一些限制。给出了内不稳定系统和渐近不稳定系统的例子。提出了被控系统的稳定性假设。考虑一个多通道系统的例子“推车上的倒立摆”，它是一个具有非方阵传递函数的对象(在这个例子中，输入动作的数量小于输出参数的数量)。利用该对象的静态特性，证明了并非总是被控制的系统可以稳定在给定位置。例如，在将倒立摆的所需角度设置为零以外的情况下，不可能将小车的位置保持在给定的坐标中。同时，如果你把平衡点的角度设置为倒立摆的期望角度，那么小车在给定坐标上的稳定就成为可能。

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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Digital Technology Security

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