用于数字显微镜白平衡的Normal Patch Retinex鲁棒算法

Machine Graphics and Vision Pub Date : 2020-01-01 DOI:10.22630/mgv.2020.29.1.5

Izabella Antoniuk, A. Krupa, Radosław Roszczyk

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引用次数: 0

摘要

即使对于经验丰富的显微镜操作人员，在光学显微镜中获取准确的彩色，平衡的图像也是一项挑战。本文提出了一个完全自动的机制，以平衡白色水平，允许适当的显微彩色图像的校正。该算法的结果已经在一组200张显微图像上得到了实验证实。图像包含病理形态学中常用的三个显微标本的扫描。并将所得结果与数码摄影中常用的其他白平衡算法进行了比较。在这项工作中应用的算法是更有效的比经典算法用于彩色摄影显微图像染色苏木精-邻苯二酚-藏红花和免疫组织化学染色图像。

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Normal Patch Retinex robust algorithm for white balancing in digital microscopy

The acquisition of accurately coloured, balanced images in an optical microscope can be a challenge even for experienced microscope operators. This article presents an entirely automatic mechanism for balancing the white level that allows the correction of the microscopic colour images adequately. The results of the algorithm have been confirmed experimentally on a set of two hundred microscopic images. The images contained scans of three microscopic specimens commonly used in pathomorphology. Also, the results achieved were compared with other commonly used white balance algorithms in digital photography. The algorithm applied in this work is more effective than the classical algorithms used in colour photography for microscopic images stained with hematoxylin-phloxine-saffron and for immunohistochemical staining images.

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来源期刊

Machine Graphics and Vision Computer Science-Computer Graphics and Computer-Aided Design

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： Machine GRAPHICS & VISION (MGV) is a refereed international journal, published quarterly, providing a scientific exchange forum and an authoritative source of information in the field of, in general, pictorial information exchange between computers and their environment, including applications of visual and graphical computer systems. The journal concentrates on theoretical and computational models underlying computer generated, analysed, or otherwise processed imagery, in particular: - image processing - scene analysis, modeling, and understanding - machine vision - pattern matching and pattern recognition - image synthesis, including three-dimensional imaging and solid modeling