Automation of the interpretation of surface response to excitation (SuRE) method by using neural networks

2015 7th International Conference on Recent Advances in Space Technologies (RAST) Pub Date : 2015-06-16 DOI:10.1109/RAST.2015.7208307

H. Fekrmandi, Rafael Gonzalez Sebastian Rojas, I. Tansel, David Meiller, Kyle Lindsay

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引用次数: 6

Abstract

In this study surface response to excitation (SuRE) method with a neural network was used for structural health monitoring of an aluminum beam. SuRE method excited and monitored the elastic guided waves on the structure. The frequency-transfer function was captured over a range of high frequencies (20-200 kHz) using a low cost Digital Signal Processor (DSP) system. For magnitude estimation, the amplitude of the received signal for each frequency value is calculated. With the magnitude estimation, the frequency domain spectrum response is calculated. Using an aluminum plate as the experimental surface, load in different points of the beam were applied and the response signals organized in a database. With the experimental data, a neural network is trained with the Levenberg-Marquardt algorithm and then trained with the scaled conjugated gradient algorithm. The study indicated that the SuRE method may be used as a low cost alternative to detect surface changes.

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利用神经网络自动解释地表激励响应(SuRE)方法

将表面激励响应(SuRE)方法与神经网络相结合，用于铝梁结构健康监测。SuRE方法对结构上的弹性导波进行激励和监测。使用低成本数字信号处理器(DSP)系统在高频率(20-200 kHz)范围内捕获频率传递函数。对于幅值估计，计算每个频率值下接收信号的幅值。通过幅度估计，计算频域频谱响应。以铝板为实验面，在梁的不同位置施加荷载，并将响应信号组织成数据库。根据实验数据，先用Levenberg-Marquardt算法对神经网络进行训练，再用缩放共轭梯度算法对神经网络进行训练。研究表明，SuRE方法可以作为一种低成本的检测表面变化的替代方法。

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2015 7th International Conference on Recent Advances in Space Technologies (RAST)

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