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鸽子的颜色命名功能。

Color-naming functions for the pigeon.

出版信息

J Exp Anal Behav. 1971 Jan;15(1):7-17. doi: 10.1901/jeab.1971.15-7.

DOI:10.1901/jeab.1971.15-7
PMID:16811491
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1333775/
Abstract

Six pigeons were trained to match wavelengths in a three-key matching-to-sample paradigm. Test trials were occasionally presented, where probe wavelengths appeared on the center key and choices were made to the training stimuli presented on the side keys. Color naming functions were obtained by plotting the percentage of test trials that each training stimulus wavelength was chosen for each center key probe wavelength. The wavelength where the functions intersected was interpreted as a transition point between pigeon hues. Three experiments employed different wavelengths as training stimuli. The first two experiments demonstrated that the intersection of the color-naming functions occurred in all cases at 540 nm and 595 nm. The third experiment employed 540 nm and 595 nm as two of the three training stimuli, and the relatively slow acquisition, together with the resulting color-naming functions, supported the proposition that 540 nm and 595 nm may be transition point wavelengths between pigeon hues.

摘要

六只鸽子接受了训练,以在三键匹配样本范式中匹配波长。偶尔会进行测试试验,其中探针波长出现在中心键上,而选择则出现在侧键上呈现的训练刺激上。通过绘制每个中心键探针波长选择的每个训练刺激波长的测试试验的百分比,可以获得颜色命名功能。功能相交的波长被解释为鸽子色调之间的过渡点。三个实验使用不同的波长作为训练刺激。前两个实验表明,在所有情况下,颜色命名功能的交点都发生在 540nm 和 595nm。第三个实验使用 540nm 和 595nm 作为三个训练刺激中的两个,相对较慢的获取速度以及由此产生的颜色命名功能支持了 540nm 和 595nm 可能是鸽子色调之间过渡点波长的观点。

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