非线性增压柴油机模型的多项式控制

2004 IEEE International Conference on Industrial Technology, 2004. IEEE ICIT '04. Pub Date : 2004-12-08 DOI:10.1109/ICIT.2004.1490763

M. Ayadi, N. Langlois, H. Chafouk

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引用次数: 21

摘要

本文设计了一种基于平整度特性的多项式控制器，用于安装变几何涡轮增压器(VGT)和废气再循环(EGR)阀的柴油机。这两种成分在减少污染物排放和提高发动机性能方面有着广泛的贡献。在控制设计中，考虑了柴油机的简化非线性模型。该模型围绕一个工作点进行线性化，设计了基于平面性的线性多项式控制器。柴油机的变量完全由在离散时间框架下平面输出轨迹的规划决定。然后将得到的控制器应用于最初考虑的非线性模型。在一个实时电子试验台上的仿真结果表明，该方法在跟踪性和鲁棒性方面都有显著提高。

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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Polynomial control of nonlinear turbocharged diesel engine model

In this paper, a polynomial controller based on the flatness property is designed for a diesel engine equipped with a variable geometry turbocharger (VGT) and an exhaust gas recirculation (EGR) valve. These two components have widely contributed to reduce the pollutant emission and to improve engine performance. For the control design, a simplified nonlinear model of the diesel engine is considered. This model is linearized around an operating point to design a linear polynomial controller based on the flatness property. The diesel engine variables are completely determined by the planning of the flat output trajectory in a discrete-time framework. The resulting controller is then applied on the nonlinear model initially considered. Simulations results on a real-time electronic test bed show the performance improvement in terms of tracking and robustness.

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来源期刊

2004 IEEE International Conference on Industrial Technology, 2004. IEEE ICIT '04.

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