Neural network based modeling of a piezodisk dynamics

2007 International Symposium on Computational Intelligence in Robotics and Automation Pub Date : 2007-06-20 DOI:10.1109/CIRA.2007.382900

Petri Hanninen, Quan Zhou, H. Koivo

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引用次数: 1

Abstract

Piezoelectric phenomenon is commonly used in microsystems. Many sensors as well as actuators are based on this phenomenon. Because of the nonlinear character of the piezo phenomenon, exact measuring of fast dynamic systems is difficult with piezoelectric sensors. Piezo-based actuators on the other hand need feedback for the exact motion. This has increased the size of the system as well as the power consumption, which are undesirable characteristics in microworld. In this paper a solution for the problem is determined by modeling. First, a third order transfer function is generated to model the piezoactuator at the operating point. The parameters of a grey box-model are implemented as dynamic, because of the nonlinearity of the piezo actuator. This is the way to capture the characters of the transfer function to fit the real actuator at each operating point. A multilayer perception neural network is used to model the behavior of the system. The training data for the network is measured at different operating points. The model is validated by test data at different operating points. The agreement with the model and the measurements is excellent.

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基于神经网络的压盘动力学建模

压电现象是微系统中常用的一种现象。许多传感器和执行器都是基于这种现象。由于压电现象的非线性特性，使用压电传感器对快速动态系统进行精确测量是困难的。另一方面，基于压电的执行器需要精确的运动反馈。这增加了系统的尺寸和功耗，这是在微观世界中不希望看到的特性。本文通过建模确定了该问题的解决方案。首先，生成一个三阶传递函数来模拟压电致动器的工作点。由于压电作动器的非线性，灰盒模型的参数实现为动态的。这是捕获传递函数的特征以拟合实际执行器在每个工作点的方法。采用多层感知神经网络对系统行为进行建模。在不同的工作点测量网络的训练数据。通过不同工况下的试验数据对模型进行了验证。模型与实测结果吻合良好。

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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来源期刊

2007 International Symposium on Computational Intelligence in Robotics and Automation

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