Conditions of Application of Distributed Systems Synthesis Methods to Multidimensional Object

2018 International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon) Pub Date : 2018-10-01 DOI:10.1109/FAREASTCON.2018.8602749

T. V. Kukharova, I. Pershin

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引用次数: 11

Abstract

The main difficulty in applying the frequency synthesis method for multidimensional lumped systems is the necessity to transform control systems to the form that allows to consider the system as a complex of independent one-dimensional lumped systems, so that the interaction between the contours could be ignored. In this work considered spatially invariant distributed object described by differential equations in partial derivatives and carried out a comparison of distributed object continuous and discrete models dynamic characteristics. The paper shows that if the discrete analogs of spatial modes are the eigenvectors of the multidimensional object transfer matrix, the object is conventionally spatially invariant and can be described by the partial differential equation. The application of this method to multidimensional systems can allow synthesizing regulators in cases where the original transfer matrix of the object is not diagonally dominant, and let to describe the laws of object dynamics more accurate.

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分布式系统综合方法在多维对象中的应用条件

将频率综合方法应用于多维集总系统的主要困难是必须将控制系统转换为允许将系统视为独立的一维集总系统的复合体的形式，以便可以忽略轮廓之间的相互作用。本文考虑空间不变的用偏导数微分方程描述的分布式目标，对分布式目标连续模型和离散模型的动态特性进行了比较。如果空间模态的离散类似物是多维物体传递矩阵的特征向量，则该物体是常规的空间不变的，可以用偏微分方程来描述。将该方法应用于多维系统中，可以在对象的原始传递矩阵不是对角占优的情况下合成调节器，从而更准确地描述对象的动力学规律。

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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2018 International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon)

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