矩阵光电探测器显色质量的数值评估方法

IF 0.1 Q4 INSTRUMENTS & INSTRUMENTATION Ukrainian Metrological Journal Pub Date : 2021-12-30 DOI:10.24027/2306-7039.4.2021.250412
O. Kupko, O. Liashenko, P. Neyezhmakov, Yevhen Tymofeiev, Eduard Diumin, Natalia Mushchynska, Anatoliy Litvinenko
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引用次数: 0

摘要

为了客观地评估建筑物体在照明中改变其光谱质量和亮度时的彩色图像,有必要确保其准确固定。物体的颜色坐标的测量提供了对其外观的完全捕捉,但这不允许在不可视化照明场景的情况下获得对视觉印象的充分评估。这需要对具有相同角度坐标的图像和对象的每个点再现相同颜色坐标的彻底过程。在这项工作中,试图开发一个数字标准来评估相机的颜色渲染质量,作为所选场景的颜色视觉印象的固定器。用于评估相机的色彩渲染质量的数字详细方法的开发将允许更可靠地捕捉诸如真实场景的视觉印象和该场景的图像文件的对应关系这样的主观概念。包含对象信息的数字格式避免了与图像老化相关的问题。以数码相机Nikon D300s、Sony DSC-H5为例,考虑了开发数字评估摄影中颜色失真的方法。对于已知光谱特性的情况,所描述的方法允许将所计算的相机的反应与光谱纯颜色的色度坐标明确地联系起来。评估光源质量的现代方法(IES TM-30-15)允许评估偏移的方向。所提出的指标图E(λi)在数字上表征了相机的反应和人眼的反应之间的差异,并且没有给出与自然场景相比在哪个方向存在差异的想法,条件是红色或蓝色图像,但对于未经训练的用户来说,这是最简单和最容易理解的。结果表明,对于所考虑的尼康D300s示例,测量光谱特性的精度为1%,在不同波长下计算该指示剂的不确定度不超过0.002。
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Method for the numerical evaluation of the color rendering quality of matrix photodetectors
To objectively evaluate the color image of an architectural object when changing its spectral quality and luminance in lighting, it is necessary to ensure its accurate fixation. The measurement of the color coordinates of an object provides the fully capture of its appearance, but this does not allow to get an adequate evaluation of the visual impression without visualizing the lighting scene. This requires a thorough procedure of reproducing the same color coordinates for each point of the image and the object with the same angular coordinates. In this work, an attempt is made to develop a numerical criterion for evaluating the quality of color rendering of the camera as a fixer of color visual impression of the selected scene. The development of a numerical detailed method for evaluation of the quality of color rendering of cameras will allow capturing more reliably such a subjective concept as the correspondence of the visual impression of the real scene and the image file of this scene. The digital format, which contains information about the object, avoids the problems associated with aging of the image. The proposed method of developing ways to numerically evaluate color distortion in photography is considered on the example of digital cameras Nikon D300s, Sony DSC-H5. The described approach for the case of known spectral characteristics allows to unambiguously link the calculated reaction of the camera with the chromaticity coordinates of spectrally pure colors. Modern methods of evaluating the quality of light sources (IES TM-30-15) allow evaluation of the direction of the shift. The proposed indicator – graph E (λi) numerically characterizes the difference between the reaction of the camera and the reaction of the human eye and does not give an idea in which direction there is a difference, conditionally red or blue image compared to the natural scene, but is the simplest and most understandable to the untrained user. It is shown that with an accuracy of measuring spectral characteristics of 1% for the considered example with Nikon D300s, this indicator at different wavelengths is calculated with an uncertainty of not more than 0.002.
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来源期刊
Ukrainian Metrological Journal
Ukrainian Metrological Journal INSTRUMENTS & INSTRUMENTATION-
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