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傅里叶域中的日光、生物色素表面和人类色彩响应。

Daylight, biochrome surfaces, and human chromatic response in the Fourier domain.

作者信息

Bonnardel V, Maloney L T

机构信息

Department of Physiology, University of Cambridge, UK.

出版信息

J Opt Soc Am A Opt Image Sci Vis. 2000 Apr;17(4):677-86. doi: 10.1364/josaa.17.000677.

Abstract

We first report Fourier analyses of a collection of 348 daylight spectral power distributions and 1,695 biochrome surface reflectance functions. The power spectra of the daylights are low pass with more than 99% of spectral power below 1 cycle/300 nm and 99.9% below 3 cycles/300 nm. The power spectra of reflectance functions are also low pass with more than 99% of spectral power below 4 cycles/300 nm and 99.9% below 11 cycles/300 nm. Consequently, the resulting color signals are typically low pass with, for our samples, an estimated frequency cutoff of 5 cycles/300 nm. Theoretical and experimental data concerning human chromatic response in the frequency domain show that this limit corresponds to the highest frequency that the color system can resolve. The implications for normal and abnormal human color vision are discussed.

摘要

我们首次报告了对348个日光光谱功率分布和1695个生物色素表面反射函数的集合进行的傅里叶分析。日光的功率谱是低通的,超过99%的光谱功率低于1周期/300纳米,99.9%低于3周期/300纳米。反射函数的功率谱也是低通的,超过99%的光谱功率低于4周期/300纳米,99.9%低于11周期/300纳米。因此,对于我们的样本,所产生的颜色信号通常是低通的,估计频率截止为5周期/300纳米。关于人类在频域中的色觉响应的理论和实验数据表明,这个极限对应于颜色系统能够分辨的最高频率。文中讨论了其对正常和异常人类色觉的影响。

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