Arend L E, Reeves A, Schirillo J, Goldstein R
Eye Research Institute, Boston, Massachusetts 02114.
J Opt Soc Am A. 1991 Apr;8(4):661-72. doi: 10.1364/josaa.8.000661.
Arend and Reeves [J. Opt. Soc. Am. A 3, 1743 (1986)] described measurements of color constancy in computer simulations of arrays of colored papers of equal Munsell value under 4000-, 6500-, and 10,000-K daylight illuminants. We report an extension of those experiments to chromatic arrays spanning a wide range of Munsell values. The computer-simulated scene included a standard array of Munsell papers under 6500-K illumination and a test array, an identical array of the same papers under 4000 or 10,000 K. Observers adjusted a patch in the test array in order to match the corresponding patch in the standard array by one of two criteria. They either matched hue and saturation or they made surface-color matches, in which the test patch was made to "look as if it were cut from the same pice of paper as the standard patch." The test and the standard patches were surrounded by a single color (annulus display) or by many colors (Mondrian display). The data agreed with those of our previous equal-value experiment. The paper matches were often approximately color constant. The hue-saturation matches were in the correct direction for constancy but were always closer to a chromaticity match (no constancy) than to the chromaticity required for hue-saturation constancy.
阿伦德和里夫斯[《美国光学学会志A》3, 1743 (1986)]描述了在4000K、6500K和10000K日光照明下,对具有相同孟塞尔值的彩色纸张阵列进行计算机模拟时的颜色恒常性测量。我们报告了将这些实验扩展到涵盖广泛孟塞尔值范围的彩色阵列。计算机模拟场景包括在6500K照明下的孟塞尔纸张标准阵列和一个测试阵列,即相同纸张在4000K或10000K下的相同阵列。观察者通过两个标准之一调整测试阵列中的一个色块,以便使其与标准阵列中的相应色块匹配。他们要么匹配色调和饱和度,要么进行表面颜色匹配,即在表面颜色匹配中,使测试色块“看起来好像是从与标准色块相同的纸张上裁剪下来的”。测试色块和标准色块被单一颜色(环形显示)或多种颜色(蒙德里安显示)包围。数据与我们之前的等值实验的数据一致。纸张匹配通常近似于颜色恒常。色调 - 饱和度匹配在恒常性方面方向正确,但总是比色调 - 饱和度恒常性所需的色度更接近色度匹配(无恒常性)。
