色褪色定量表征和可视化的新方法

W. Yoo, K. Kang, Jung Gon Kim, Yeon-Kwon Yoo
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摘要

在光照下,随着时间的推移,颜色会自然褪色。它是由光的高光子能量触发的。颜色褪色和变暗的速度取决于物质、光照条件和储存条件。只有经过一段时间后才会观察到褪色。感兴趣的物体的当前颜色只能与旧照片或观察者在参考时的感知进行比较。过去两个或多个时间点之间的颜色褪色和颜色变暗率只能使用过去的摄影图像来确定。为了客观地描述两个或多个不同时间之间的色差,需要对数码或印刷照片中的颜色进行量化。本研究使用新开发的图像分析与比较软件PicMan进行颜色量化和逐像素色差制图。本文选取了两幅日本木版版画有褪色和没有褪色的图像,对褪色和颜色加深的定量表征进行了示范研究。这种褪色是在长时间的光照下发生的。逐像素、逐行、逐区域地比较两幅图像之间的颜色褪色和变暗,对于量化颜色变化和可视化现象非常有效。图像之间的RGB, HSV, CIE L*a*b*值及其对任何形状的感兴趣区域的单个像素的差异都可以量化。为了完整起见,给出了数字、图形和图像格式的褪色和变暗分析结果。与其他格式相比,所有格式在数据大小、复杂性、可读性和相关各方之间的通信方面都有自己的优缺点。本文演示了各种显示选项,用于颜色分析,颜色褪色的总结,或对实际艺术,文化遗产保护和博物馆应用感兴趣的图像之间的色差。利用PicMan对图像间的颜色变化进行插值或外推,实现了不同时刻的颜色模拟。不同时间(过去和未来)的颜色褪色和变暗程度可以模拟和可视化,用于公共展示,存储和修复规划的决策。
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A Novel Approach to Quantitative Characterization and Visualization of Color Fading
Color fading naturally occurs with time under light illumination. It is triggered by the high photon energy of light. The rate of color fading and darkening depends on the substance, lighting condition, and storage conditions. Color fading is only observed after some time has passed. The current color of objects of interest can only be compared with old photographs or the observer’s perception at the time of reference. Color fading and color darkening rates between two or more points in time in the past can only be determined using photographic images from the past. For objective characterization of color difference between two or more different times, quantification of color in either digital or printed photographs is required. A newly developed image analysis and comparison software (PicMan) has been used for color quantification and pixel-by-pixel color difference mapping in this study. Images of two copies of Japanese wood-block prints with and without color fading have been selected for the exemplary study of quantitative characterization of color fading and color darkening. The fading occurred during a long period of exposure to light. Pixel-by-pixel, line-by-line, and area-by-area comparisons of color fading and darkening between two images were very effective in quantifying color change and visualization of the phenomena. RGB, HSV, CIE L*a*b* values between images and their differences of a single pixel to areas of interest in any shape can be quantified. Color fading and darkening analysis results were presented in numerical, graphical, and image formats for completeness. All formats have their own advantages and disadvantages over the other formats in terms of data size, complexity, readability, and communication among parties of interest. This paper demonstrates various display options for color analysis, a summary of color fading, or color difference among images of interest for practical artistic, cultural heritage conservation, and museum applications. Color simulation for various moments in time was proposed and demonstrated by interpolation or extrapolation of color change between images, with and without color fading, using PicMan. The degree of color fading and color darkening over the various moments in time (past and future) can be simulated and visualized for decision-making in public display, storage, and restoration planning.
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