Vladyslav Andriiashen, Robert van Liere, Tristan van Leeuwen, K. Joost Batenburg
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引用次数: 0
Abstract
X-ray imaging can be efficiently used for high-throughput in-line inspection of industrial products. However, designing a system that satisfies industrial requirements and achieves high accuracy is a challenging problem. The effect of many system settings is application-specific and difficult to predict in advance. Consequently, the system is often configured using empirical rules and visual observations. The performance of the resulting system is characterized by extensive experimental testing. We propose to use computational methods to substitute real measurements with generated images corresponding to the same experimental settings. With this approach, it is possible to observe the influence of experimental settings on a large amount of data and to make a prediction of the system performance faster than with conventional methods. We argue that a high accuracy of the image generator may be unnecessary for an accurate performance prediction. We propose a quantitative methodology to characterize the quality of the generation model using Probability of Detection curves. The proposed approach can be adapted to various applications and we demonstrate it on the poultry inspection problem. We show how a calibrated image generation model can be used to quantitatively evaluate the effect of the X-ray exposure time on the performance of the inspection system.
X 射线成像可有效地用于工业产品的高通量在线检测。然而,设计一个既能满足工业要求又能达到高精度的系统是一个具有挑战性的问题。许多系统设置的效果都是针对具体应用的,很难提前预测。因此,系统配置通常采用经验规则和目视观察。由此产生的系统性能需要通过大量的实验测试来确定。我们建议使用计算方法,用与相同实验设置相对应的生成图像来替代真实测量。通过这种方法,可以观察实验设置对大量数据的影响,并比传统方法更快地预测系统性能。我们认为,要进行准确的性能预测,可能并不需要高精度的图像生成器。我们提出了一种定量方法,利用检测概率曲线来描述生成模型的质量。我们提出的方法可适用于各种应用,并在家禽检测问题上进行了演示。我们展示了如何使用校准过的图像生成模型来定量评估 X 射线曝光时间对检测系统性能的影响。
期刊介绍:
Journal of Nondestructive Evaluation provides a forum for the broad range of scientific and engineering activities involved in developing a quantitative nondestructive evaluation (NDE) capability. This interdisciplinary journal publishes papers on the development of new equipment, analyses, and approaches to nondestructive measurements.