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视听感知的综合模型:既有感知又有时态动态。

A comprehensive model of audiovisual perception: both percept and temporal dynamics.

机构信息

Institute of Movement Sciences, CNRS-Université de la Méditerranée, Marseille, France.

出版信息

PLoS One. 2011;6(8):e23811. doi: 10.1371/journal.pone.0023811. Epub 2011 Aug 22.

DOI:10.1371/journal.pone.0023811
PMID:21887324
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3161793/
Abstract

The sparse information captured by the sensory systems is used by the brain to apprehend the environment, for example, to spatially locate the source of audiovisual stimuli. This is an ill-posed inverse problem whose inherent uncertainty can be solved by jointly processing the information, as well as introducing constraints during this process, on the way this multisensory information is handled. This process and its result--the percept--depend on the contextual conditions perception takes place in. To date, perception has been investigated and modeled on the basis of either one of two of its dimensions: the percept or the temporal dynamics of the process. Here, we extend our previously proposed audiovisual perception model to predict both these dimensions to capture the phenomenon as a whole. Starting from a behavioral analysis, we use a data-driven approach to elicit a bayesian network which infers the different percepts and dynamics of the process. Context-specific independence analyses enable us to use the model's structure to directly explore how different contexts affect the way subjects handle the same available information. Hence, we establish that, while the percepts yielded by a unisensory stimulus or by the non-fusion of multisensory stimuli may be similar, they result from different processes, as shown by their differing temporal dynamics. Moreover, our model predicts the impact of bottom-up (stimulus driven) factors as well as of top-down factors (induced by instruction manipulation) on both the perception process and the percept itself.

摘要

大脑利用感觉系统获取的稀疏信息来感知环境,例如,确定视听刺激源的空间位置。这是一个不适定的逆问题,可以通过联合处理信息以及在这个过程中引入约束来解决,这些约束是在处理多感觉信息的过程中引入的。这个过程及其结果——感知——取决于感知发生的上下文条件。迄今为止,人们已经基于感知的两个维度之一或两者来研究和建模感知:感知或过程的时间动态。在这里,我们将之前提出的视听感知模型扩展到预测这两个维度,以整体捕捉这一现象。从行为分析开始,我们使用数据驱动的方法来引出一个贝叶斯网络,该网络可以推断出不同的感知和过程的动态。特定于上下文的独立性分析使我们能够利用模型的结构来直接探索不同的上下文如何影响主体处理相同可用信息的方式。因此,我们确定,虽然来自单感觉刺激或多感觉刺激的非融合产生的感知可能相似,但它们来自不同的过程,这可以通过它们不同的时间动态来证明。此外,我们的模型预测了自下而上(由刺激驱动)因素以及自上而下(由指令操作引起)因素对感知过程和感知本身的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/14a4/3161793/d2214e39e430/pone.0023811.g011.jpg
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