Designing Nonlinear Control Structures by Reference System Synthesis

R. Bartusiak, C. Georgakis, M. J. Reilly
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引用次数: 8

Abstract

Reference system synthesis, an equation-based method for designing nonlinear feedforward/feedback controllers for general dynamic systems is presented. The control objective is expressed as a desired closed loop behavior in the form of a set of integro-differential equations which can, by design, be nonlinear. Realization of the desired closed loop behavior depends upon the solution of an operator equation relating the open loop system to the desired closed loop system for computing the necessary manipulated variable action. Analytical solutions of this operator equation can be found for simple systems. In general, numerical solutions can be determined using Newton's method, for example. The advantages of reference system synthesis are (i) it provides a general method for designing nonlinear feedforward/feedback controllers, (ii) it is simple, and (iii) its loop-shaping capabilities allow for the design of deliberately nonlinear closed loop behavior for higher performance and constraint-avoiding control. In this paper, we introduce the reference system synthesis procedure, illustrate its application to simple dynamical systems, and discuss the relationship of reference system synthesis to PID and Internal Model Control design procedures.
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基于参考系统综合的非线性控制结构设计
针对一般动态系统,提出了一种基于方程的非线性前馈/反馈控制器设计参考系统综合方法。控制目标以一组可以设计为非线性的积分-微分方程的形式表示为期望的闭环行为。所期望的闭环行为的实现依赖于开环系统与所期望的闭环系统的算子方程的解,以计算必要的被操纵变量作用。该算子方程的解析解可以在简单系统中找到。一般来说,数值解可以用牛顿法来确定。参考系统综合的优点是:(i)它为设计非线性前馈/反馈控制器提供了一种通用方法,(ii)它很简单,(iii)它的环成形能力允许设计有意的非线性闭环行为,以获得更高的性能和避免约束的控制。本文介绍了参考系统综合程序,说明了其在简单动力系统中的应用,并讨论了参考系统综合与PID和内模控制设计程序的关系。
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