A Study on the Multi-focus Method of Microscopic Images for Oil-painting Analysis

Q4 Engineering Journal of the Korean Society for Precision Engineering Pub Date : 2023-07-31 DOI:10.7736/jkspe.022.151

H. Kim, Duk-Yeon Lee, D. Choi, Jaehyeon Kang, Dong-Wook Lee

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Abstract

surface it is inconvenient to analyze an entire image due to multiple defocused areas. The defocusing is usually caused by the small depth of the lens and the rough surface curve. Thus, these microscopic images in an oil painting have multiple focal points, which indicates multi-focus images. We present a multi-focus fusion synthesizing a focused image from scans based on focal direction and selection of focused places. Based on microscopic characteristics, a common scanned area of the images was defined to unify the lens multiplication. A focus index was applied to each pixel to identify well-focused pixels and generate a mapping image in the focal direction. Subsequently, a median filter was applied to the mapping image and a multifocal image was acquired based on actual pixel values obtained from the mapping image. The proposed method was utilized in analyzing oil painting samples carrying rough surface curves. The multifocal image facilitated the analysis of the oil painting surface and resulted in enhanced quality compared with other methods. The proposed method can be used to generate useful images in scientific and industrial microscopy

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油画显微图像多聚焦分析方法的研究

由于多个散焦区域，分析整个图像是不方便的。散焦通常是由透镜的小深度和粗糙的表面曲线引起的。因此，油画中的这些微观图像具有多个焦点，这表示多焦点图像。我们提出了一种基于聚焦方向和聚焦位置选择的多聚焦融合，从扫描中合成聚焦图像。基于显微特征，定义了图像的公共扫描区域，以统一透镜倍增。将聚焦指数应用于每个像素，以识别聚焦良好的像素并生成聚焦方向上的映射图像。随后，将中值滤波器应用于映射图像，并且基于从映射图像获得的实际像素值来获取多焦点图像。将该方法应用于带有粗糙表面曲线的油画样品的分析。与其他方法相比，多焦图像有助于油画表面的分析，并提高了质量。所提出的方法可用于在科学和工业显微镜中生成有用的图像

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来源期刊

Journal of the Korean Society for Precision Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

0.50

自引率

0.00%

发文量

104

期刊介绍： Journal of the Korean Society for Precision Engineering (JKSPE) is devoted to publishing original research articles with high ethical standard on all aspects of precision engineering and manufacturing. Specifically, the journal focuses on articles related to improving the precision of machines and manufacturing processes through implementation of creative solutions that stem from advanced research using novel experimental methods, predictive modeling techniques, and rigorous analyses based on mechanical engineering or multidisciplinary approach. The expected outcomes of the knowledge disseminated from JKSPE are enhanced reliability, better motion precision, higher measurement accuracy, and sufficient reliability of precision systems. The various topics covered by JKSPE include: Precision Manufacturing processes, Precision Measurements, Robotics and Automation / Control, Smart Manufacturing System, Design and Materials, Machine Tools, Nano/Micro Technology, Biomechanical Engineering, Additive Manufacturing System, Green Manufacturing Technology.