A Bayesian observer model reveals a prior for natural daylights in hue perception

IF 1.5 4区 心理学 Q4 NEUROSCIENCES
Yannan Su , Zhuanghua Shi , Thomas Wachtler
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引用次数: 0

Abstract

Incorporating statistical characteristics of stimuli in perceptual processing can be highly beneficial for reliable estimation from noisy sensory measurements but may generate perceptual bias. According to Bayesian inference, perceptual biases arise from the integration of internal priors with noisy sensory inputs. In this study, we used a Bayesian observer model to derive biases and priors in hue perception based on discrimination data for hue ensembles with varying levels of chromatic noise. Our results showed that discrimination thresholds for isoluminant stimuli with hue defined by azimuth angle in cone-opponent color space exhibited a bimodal pattern, with lowest thresholds near a non-cardinal blue-yellow axis that aligns closely with the variation of natural daylights. Perceptual biases showed zero crossings around this axis, indicating repulsion away from yellow and attraction towards blue. These biases could be explained by the Bayesian observer model through a non-uniform prior with a preference for blue. Our findings suggest that visual processing takes advantage of knowledge of the distribution of colors in natural environments for hue perception.

贝叶斯观察者模型揭示了色调感知中自然日光的先验性
在知觉处理过程中纳入刺激物的统计特征,对从噪声感官测量中进行可靠估计大有裨益,但也可能产生知觉偏差。根据贝叶斯推理,知觉偏差产生于内部先验与噪声感官输入的整合。在这项研究中,我们使用贝叶斯观察者模型,根据色度噪声水平不同的色度集合的分辨数据,推导出色度感知的偏差和先验。研究结果表明,对于色调由锥反色空间方位角定义的孤立光刺激,其辨别阈值呈现双峰模式,最低阈值靠近非心轴的蓝-黄轴,与自然日光的变化密切相关。感知偏差在该轴附近显示为零交叉,表明对黄色的排斥和对蓝色的吸引。贝叶斯观察者模型可以通过偏好蓝色的非均匀先验来解释这些偏差。我们的研究结果表明,视觉处理利用了自然环境中颜色分布的知识来感知色调。
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来源期刊
Vision Research
Vision Research 医学-神经科学
CiteScore
3.70
自引率
16.70%
发文量
111
审稿时长
66 days
期刊介绍: Vision Research is a journal devoted to the functional aspects of human, vertebrate and invertebrate vision and publishes experimental and observational studies, reviews, and theoretical and computational analyses. Vision Research also publishes clinical studies relevant to normal visual function and basic research relevant to visual dysfunction or its clinical investigation. Functional aspects of vision is interpreted broadly, ranging from molecular and cellular function to perception and behavior. Detailed descriptions are encouraged but enough introductory background should be included for non-specialists. Theoretical and computational papers should give a sense of order to the facts or point to new verifiable observations. Papers dealing with questions in the history of vision science should stress the development of ideas in the field.
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