神经元信号方差的变化可能与立体视觉的感知相关

International Conference on Bio-inspired Information and Communications Technologies Pub Date : 2016-05-24 DOI:10.4108/EAI.3-12-2015.2262431

Nela Cicmil, A. Parker, K. Krug

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引用次数: 1

摘要

我们测量了V1、V2和V5/MT视觉区神经元放电率的方差/均值(v/m)比，以响应相关和反相关的随机点立体图。早期视觉区V1和V2的差异选择神经元对两种立体刺激的v/m比无显著差异，但V5/MT区神经元对反相关刺激的v/m比显著高于相关刺激。这些结果表明，皮层层次较高的视觉区域的神经元对反相关刺激有更大的反应变异性，这不会产生连贯的立体感知。包括V5/MT在内的周期性皮层网络抑制神经变异性，可能有助于解决立体对应问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Changes in variance of neuronal signals may be perceptually relevant for stereo vision

We measured the variance/mean (v/m) ratio of neuronal firing rates in visual areas V1, V2 and V5/MT in response to correlated and anti-correlated random dot stereograms. Disparity-selective neurons in early visual areas V1 and V2 showed no significant difference in v/m ratios to the two types of stereo-stimuli, but neurons in area V5/MT had a significantly greater v/m ratio for anti-correlated compared to correlated stimuli. These results demonstrate that neurons in a visual area higher in the cortical hierarchy have a greater response variability to anti-correlated stimuli, which do not give rise to a coherent stereo percept. A recurrent cortical network including V5/MT that quenches neural variability may contribute to solving the stereo correspondence problem.

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International Conference on Bio-inspired Information and Communications Technologies

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