A Deep Learning Approach for Denoising Air-Coupled Ultrasonic Responds Data

Mikel David Jedrusiak, F. Weichert
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引用次数: 5

Abstract

Ensuring material quality is a central objective in production and manufacturing. Non-contact nondestructive testing methods without the use of coupling media are of particular interest with regard to mechanical or biochemical properties of the material. For this purpose, air-coupled ultrasonic is a useful method for quality control. The challenge is the poor signal-to-noise ratio, which makes it difficult to apply the classical approaches. This makes it impossible to distinguish between defect structures and noise. We are developing a method for denoising air-coupled ultrasonic data by applying deep neural networks by using a geometry-analytical component that detects defect structures. During the evaluation we show that we are able to obtain the data almost free of noise, so that incorrectly classified noisy pixels are mainly located at the edges of the defect structures, which cannot be clearly delimited. It is shown that the quality of the data is significantly improved for detection processes.
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空气耦合超声响应数据去噪的深度学习方法
确保材料质量是生产和制造的中心目标。不使用耦合介质的非接触无损检测方法对材料的机械或生物化学性质特别感兴趣。为此,空气耦合超声波是一种有效的质量控制方法。挑战在于较差的信噪比,这使得应用经典方法变得困难。这使得无法区分缺陷结构和噪声。我们正在开发一种方法,通过使用检测缺陷结构的几何分析组件,应用深度神经网络对空气耦合超声数据进行去噪。在评估过程中,我们表明我们能够获得几乎没有噪声的数据,因此分类错误的噪声像素主要位于缺陷结构的边缘,无法清楚地界定。结果表明,对于检测过程,数据的质量显著提高。
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