Shaping transient response of nonlinear systems to satisfy a class of integral constraints

Farzad Aalipour, Tuhin Das
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引用次数: 2

Abstract

We consider the problem of shaping the transient step response of nonlinear systems to satisfy a class of integral constraints. Such constraints are inherent in hybrid energy systems consisting of energy sources and storage elements. While typical transient specifications aim to minimize overshoot, this problem is unique in that it requires the presence of an appreciable overshoot to satisfy the foregoing constraints. The problem was previously studied in the context of linear systems and this article extends that work to nonlinear systems. A combined integral and feedforward control, that requires minimal knowledge of the plant model, is shown to make the system amenable to meeting such constraints. Broadly, the compensation is effective for nonlinear plants with stable open-loop step response and a positive DC gain. However, stability of the resulting closed-loop system mandates bounds on the integral gain. In this regard, we state and prove generalized stability theorems for first and higher-order nonlinear plants.

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满足一类积分约束的非线性系统瞬态响应的整形
考虑满足一类积分约束的非线性系统的瞬态阶跃响应的整形问题。这种约束是由能源和存储元件组成的混合能源系统所固有的。虽然典型的瞬态规范的目标是最小化超调,但这个问题是独特的,因为它需要存在明显的超调来满足上述约束。这个问题以前是在线性系统的背景下研究的,本文将其推广到非线性系统。一个组合的积分和前馈控制,需要最小的知识的工厂模型,被证明使系统能够满足这些约束。一般来说,补偿对开环阶跃响应稳定且直流增益为正的非线性对象是有效的。然而,所得到的闭环系统的稳定性要求积分增益有界。在这方面,我们陈述并证明了一阶和高阶非线性对象的广义稳定性定理。
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