Design of a multivariable neural-net based PID controller

ICONIP'99. ANZIIS'99 & ANNES'99 & ACNN'99. 6th International Conference on Neural Information Processing. Proceedings (Cat. No.99EX378) Pub Date : 1999-11-16 DOI:10.1109/ICONIP.1999.844681
T. Yamamoto, T. Oki, S. L. Shah
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引用次数: 0

Abstract

It is well known that most industrial processes are multivariate in nature, and yet PID controllers are being widely used in a multiloop framework for the control of such interacting systems. In this paper, a design scheme for a neural net-based controller with a PID structure is proposed for the control of such multivariable systems. The proposed controller consists of a pre-compensator designed with a static gain matrix which compensates for the low-frequency interaction, and PID controllers placed diagonally, whose gains are tuned by a neural network.
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基于多变量神经网络的PID控制器设计
众所周知,大多数工业过程本质上是多变量的,然而PID控制器被广泛应用于多回路框架中来控制这种相互作用的系统。本文提出了一种基于神经网络的PID控制器的设计方案,用于多变量系统的控制。所提出的控制器由一个带有静态增益矩阵的预补偿器组成,该增益矩阵用于补偿低频相互作用,PID控制器斜置,其增益由神经网络调节。
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ICONIP'99. ANZIIS'99 & ANNES'99 & ACNN'99. 6th International Conference on Neural Information Processing. Proceedings (Cat. No.99EX378)
ICONIP'99. ANZIIS'99 & ANNES'99 & ACNN'99. 6th International Conference on Neural Information Processing. Proceedings (Cat. No.99EX378)
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