A Single-Frame Deflectometry Method for Online Inspection of Light-Transmitting Components

IEEE transactions on image processing : a publication of the IEEE Signal Processing Society Pub Date : 2024-06-19 DOI:10.1109/TIP.2024.3414145

Ning Yan;Dongxue Wang;Lei Liu;Zhuotong Li;Shuaipeng Yuan;Xiaodong Zhang

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Abstract

Transparent materials are widely used in industrial applications, such as construction, transportation, and optics. However, the complex optical properties of these materials make it difficult to achieve precise surface form measurements, especially for bulk surface form inspection in industrial environments. Traditional structured light-based measurement methods often struggle with suboptimal signal-to-noise ratios, making them ineffective. Currently, there is a lack of efficient techniques for real-time inspection of such components. This paper proposes a single-frame measurement technique based on deflectometry for large-size transparent surfaces. It utilizes the reflective characteristics of the measured surface, making it independent of the surface’s diffuse reflection properties. This fundamentally solves the issues associated with signal-to-noise ratios. By discretizing the phase map, it separates the multiple surface reflection characteristics of transparent devices, enabling transparent device measurement. To meet the requirements of industrial dynamic measurement, this technique only needs a simple and low-cost system structure, which contains just two cameras for image capture. It does not require phase shifting to complete the measurement, making it independent of the screen and having the potential for larger surface measurement. The proposed method was used to measure a 400mm aperture automobile glass, and the results showed that it is able to achieve a measurement accuracy on the order of

$10~\mu $

m. The method proposed in this paper overcomes the influence of surface reflection on transparent objects and significantly improves the efficiency and accuracy of large-sized transparent surface measurements by using a single-frame image measurement. Moreover, this method shows promise for broader applications, including measurements of lenses and HUD (Heads-Up Display) components, showcasing significant potential for industrial applications.

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用于在线检测透光元件的单帧偏转测量法。

透明材料广泛应用于建筑、运输和光学等工业领域。然而，由于这些材料具有复杂的光学特性，因此很难实现精确的表面形状测量，尤其是在工业环境中进行批量表面形状检测时。传统的基于结构光的测量方法往往难以达到最佳信噪比，因此效果不佳。目前，还缺乏对此类部件进行实时检测的高效技术。本文针对大尺寸透明表面提出了一种基于偏转测量的单帧测量技术。它利用被测表面的反射特性，使其与表面的漫反射特性无关。这从根本上解决了与信噪比相关的问题。通过将相位图离散化，它可以分离透明设备的多种表面反射特性，从而实现透明设备的测量。为了满足工业动态测量的要求，该技术只需要一个简单、低成本的系统结构，其中包含两个用于图像捕捉的摄像头。它不需要相移来完成测量，因此不受屏幕的影响，并有可能实现更大的表面测量。本文提出的方法被用于测量 400 毫米孔径的汽车玻璃，结果表明其测量精度可达 10 μm。本文提出的方法克服了透明物体表面反射的影响，通过使用单帧图像测量，显著提高了大型透明表面测量的效率和精度。此外，该方法有望应用于更广泛的领域，包括透镜和 HUD（抬头显示器）组件的测量，为工业应用展示了巨大的潜力。

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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IEEE transactions on image processing : a publication of the IEEE Signal Processing Society

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