一种噪声变换可预测对对比度变化的眼跳和手动反应时间。

A noisy transform predicts saccadic and manual reaction times to changes in contrast.

作者信息

Taylor M J, Carpenter R H S, Anderson A J

机构信息

The Physiological Laboratory, University of Cambridge, Downing Street, Cambridge CB2 3EG, UK.

出版信息

J Physiol. 2006 Jun 15;573(Pt 3):741-51. doi: 10.1113/jphysiol.2006.105387. Epub 2006 Apr 13.

DOI:10.1113/jphysiol.2006.105387

PMID:16613882

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1779743/

Abstract

One of the most important factors affecting the time taken to respond to a visual stimulus is contrast, and studies of reaction time can provide precise, quantitative information about the underlying signal processing. In this study we measured both saccadic and manual reaction times to step increments in target contrast. Our results over a range of initial contrasts are consistent with a simple model consisting of a noisy logarithmic transducer followed by a rise-to-threshold accumulator. A systematic comparison with previous contrast-processing models also shows that the commonly used method of linear regression may not be a particularly sensitive tool in deciding between them. We found similar parameters for the contrast processor in both saccadic and manual reaction times, as might be expected if a common target detection stage precedes each type of reaction.

摘要

影响对视觉刺激做出反应所需时间的最重要因素之一是对比度，反应时间的研究可以提供有关潜在信号处理的精确、定量信息。在本研究中，我们测量了目标对比度逐步增加时的眼跳反应时间和手动反应时间。我们在一系列初始对比度下得到的结果与一个简单模型一致，该模型由一个有噪声的对数换能器和一个上升到阈值的累加器组成。与先前的对比度处理模型进行的系统比较还表明，常用的线性回归方法在区分这些模型时可能不是一个特别灵敏的工具。我们在眼跳反应时间和手动反应时间中发现了类似的对比度处理器参数，这正如在每种反应类型之前有一个共同的目标检测阶段时所预期的那样。

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