用于IPC数学模型跟踪控制的Z2g0和Z2g1型ZG控制器

IEEE International Conference on Systems Biology : [proceedings]. IEEE International Conference on Systems Biology Pub Date : 2013-01-01 DOI:10.3182/20130902-3-CN-3020.00133

Yunong Zhang, Jinhao Chen, Xiaotian Yu, Wenchao Lao, Chen Peng

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引用次数: 6

摘要

近年来，张动力学(ZD)和梯度动力学(GD)被用于求解在线问题，但它们通常是分开研究的。本文首先将ZD法和GD法分别用于求解时变矩阵反演问题。然后，针对台车(IPC)系统倒立摆数学模型的跟踪控制问题，设计了基于zd的(即z2g1)控制器和ZD-GD组合(即z2g1)控制器。这两种控制器的设计程序大大简化，在跟踪误差小、响应快等方面都具有良好的性能。仿真结果进一步证实了z2g1控制器和更平滑的z2g1控制器用于工控机系统数学模型输出跟踪的可行性和优越性。

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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ZG Controllers of Z2g0 and Z2g1 Types for Tracking Control of IPC Mathematical Model

Abstract Recently, the Zhang dynamics (ZD) and the gradient dynamics (GD) have been used for solving online problems, but they are usually investigated separately. In this paper, we firstly illustrate the ZD method and the GD method by employing them separately to solve the time-varying matrix inversion problem. Then, to solve the tracking-control problem of the mathematical model of the inverted pendulum on a cart (IPC) system, the ZD-based (i.e., z2g0) controller and the ZD-GD combined (i.e., z2g1) controller are designed. These two types of controllers with greatly simplified design procedure can achieve good performance in terms of tiny tracking error and quick response. The simulation results further substantiate the feasibility and superiority of the z2g0 controller and the smoother z2g1 controller for the output tracking of the mathematical model of the IPC system.

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IEEE International Conference on Systems Biology : [proceedings]. IEEE International Conference on Systems Biology

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