Are hue and saturation carried in different neural channels?

Regan Sarah E.; Lee Robert J.; MacLeod Donald I. A.; Smithson Hannah E.

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Are hue and saturation carried in different neural channels?

机译：是不同神经通道的色调和饱和吗？

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Chromatic discrimination data show that a smaller physical stimulus change is required to detect a change in hue than to detect a change in saturation [Palette 30, 21 (1968); Proc. R. Soc. London Ser. B 283, 20160164 (2016)], and, on this basis, it has been suggested that hue and saturation are carried in different neural channels [Color Space and Its Divisions: Color Order from Antiquity to the Present (Wiley, 2003), p. 311]. We used an adaptation paradigm to test explicitly for separate mechanisms, measuring hue and saturation detection thresholds before and after adaptation to hue and saturation stimuli. Within-condition adaptation did not elevate detection thresholds significantly more than between-condition adaptation. We therefore did not find psychophysical evidence for a neural channel that extracts hue thresholds more effectively than the neural channel or channels that determine saturation thresholds. (c) 2018 Optical Society of America

机译：色度辨别数据表明，需要较小的物理刺激变化来检测色调的变化，而不是检测饱和度的变化[调色板30,21（1968）; Proc。 R. SoC。伦敦塞。 B 283,20160164（2016）]并在此基础上提出了色调和饱和度在不同的神经通道[颜色空间及其部门：从古代到现在的颜色顺序（Wiley，2003），p 。 311]。我们使用适应范式来明确测试，以便在调整到色调和饱和刺激之前和之后的单独机制，测量色调和饱和度检测阈值。条件内部适应性没有提升检测阈值明显超过条件之间的调整。因此，我们没有找到神经通道的心理物理证据，其比确定饱和阈值的神经通道或通道更有效地提取色调阈值。（c）2018年光学学会

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《Journal of the Optical Society of America, A. Optics, image science, and vision》 |2018年第4期|共10页
作者
Regan Sarah E.; Lee Robert J.; MacLeod Donald I. A.; Smithson Hannah E.;
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Univ Oxford Dept Expt Psychol Oxford England;

Univ Lincoln Sch Psychol Lincoln England;

Univ Calif San Diego Dept Psychol La Jolla CA 92093 USA;

Univ Oxford Dept Expt Psychol Oxford England;

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中图分类光学;
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1. Are hue and saturation carried in different neural channels? [J] . Regan Sarah E., Lee Robert J., MacLeod Donald I. A., Journal of the Optical Society of America, A. Optics, image science, and vision . 2018,第4期

机译：是不同神经通道的色调和饱和吗？
2. Multispectral image fusion method based on intensity-hue-saturation and nonsubsampled three-channels non-separable wavelets [J] . 刘斌, 刘维杰, 彭嘉维中国光学快报：英文版 . 2010,第004期

机译：基于强度色调饱和度和非下采样三通道不可分小波的多光谱图像融合方法
3. Superior discrimination for hue than for saturation and an explanation in terms of correlated neural noise [J] . Danilova M. V., Mollon J. D. Proceedings of the Royal Society. Biological sciences . 2016,第1831期

机译：色相优于饱和度的辨别力，以及相关神经噪声的解释
4. Classification of Rice Leaf using Fuzzy Logic and Hue Saturation Value (HSV) to Determine Fertilizer Dosage [C] . Yuslena Sari, Muhammad Alkaff, Mutia Maulida International Conference on Informatics and Computing . 2020

机译：使用模糊逻辑和色调饱和值（HSV）进行稻叶的分类来测定肥料剂量
5. In Situ Measurement, Characterization, and Modeling of Two-Phase Pressure Drop Incorporating Local Water Saturation in PEMFC Gas Channels. [D] . See, Evan J. 2013

机译：PEMFC气体通道中包含局部水饱和度的两相压降的原位测量，表征和建模。
6. Superior discrimination for hue than for saturation and an explanation in terms of correlated neural noise [O] . M. V. Danilova, J. D. Mollon 2016

机译：相对于饱和度色相具有更好的区分度并在相关神经噪声方面做出了解释
7. Superior discrimination for hue than for saturation and an explanation in terms of correlated neural noise [O] . M. V. Danilova, J. D. Mollon 2016

机译：色调的卓越歧视而不是饱和度和相关神经噪声的解释

Are hue and saturation carried in different neural channels?

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