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多感觉整合过程中基于可靠性的线索加权的神经相关物。

Neural correlates of reliability-based cue weighting during multisensory integration.

机构信息

Department of Anatomy and Neurobiology, Washington University School of Medicine, Saint Louis, Missouri, USA.

出版信息

Nat Neurosci. 2011 Nov 20;15(1):146-54. doi: 10.1038/nn.2983.

DOI:10.1038/nn.2983
PMID:22101645
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3398428/
Abstract

Integration of multiple sensory cues is essential for precise and accurate perception and behavioral performance, yet the reliability of sensory signals can vary across modalities and viewing conditions. Human observers typically employ the optimal strategy of weighting each cue in proportion to its reliability, but the neural basis of this computation remains poorly understood. We trained monkeys to perform a heading discrimination task from visual and vestibular cues, varying cue reliability randomly. The monkeys appropriately placed greater weight on the more reliable cue, and population decoding of neural responses in the dorsal medial superior temporal area closely predicted behavioral cue weighting, including modest deviations from optimality. We found that the mathematical combination of visual and vestibular inputs by single neurons is generally consistent with recent theories of optimal probabilistic computation in neural circuits. These results provide direct evidence for a neural mechanism mediating a simple and widespread form of statistical inference.

摘要

多感官线索的整合对于精确和准确的感知和行为表现至关重要,但不同模态和观察条件下的感官信号可靠性会有所不同。人类观察者通常采用最优策略,根据每个线索的可靠性对其进行加权,但这种计算的神经基础仍知之甚少。我们训练猴子从视觉和前庭线索中进行航向辨别任务,随机改变线索的可靠性。猴子适当地对更可靠的线索赋予更大的权重,并且对背内侧上颞区神经反应的群体解码密切预测了行为线索的加权,包括对最优性的适度偏离。我们发现,单个神经元对视觉和前庭输入的数学组合通常与最近的神经电路中最优概率计算理论一致。这些结果为介导一种简单而广泛的统计推断形式的神经机制提供了直接证据。

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