V1 神经元对自然场景中的感知边界进行调谐。

IF 9.4 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Paolo Papale, Wietske Zuiderbaan, Rob R M Teeuwen, Amparo Gilhuis, Matthew W Self, Pieter R Roelfsema, Serge O Dumoulin
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引用次数: 0

摘要

视觉系统需要识别与感知相关的边界,以分割复杂的自然场景。初级视觉皮层(V1)被认为能提取局部边界,而高级视觉区域则被认为能识别物体与背景之间的感知相关边界。为了验证这一猜想,我们使用了由人类观察者标注感知相关边界的自然图像。我们利用人类神经影像学、猕猴电生理学和计算模型评估了知觉相关性对 V1 反应的影响。我们发现,即使对比度和定向滤波器能量等简单特征相匹配,知觉相关边界在早期视觉皮层中引起的反应也比无关边界更强。此外,V1神经元分辨知觉相关边界的速度出奇地快,在早期前馈驱动活动中的潜伏期约为50毫秒,这表明它们对边界的特征进行了调整。我们还发现了一种延迟的情境效应,它能在更长的潜伏期内增强由知觉相关边界引起的 V1 反应。我们的研究结果揭示了 V1 神经元推断自然图像中物体布局的多种机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
V1 neurons are tuned to perceptual borders in natural scenes.

The visual system needs to identify perceptually relevant borders to segment complex natural scenes. The primary visual cortex (V1) is thought to extract local borders, and higher visual areas are thought to identify the perceptually relevant borders between objects and the background. To test this conjecture, we used natural images that had been annotated by human observers who marked the perceptually relevant borders. We assessed the effect of perceptual relevance on V1 responses using human neuroimaging, macaque electrophysiology, and computational modeling. We report that perceptually relevant borders elicit stronger responses in the early visual cortex than irrelevant ones, even if simple features, such as contrast and the energy of oriented filters, are matched. Moreover, V1 neurons discriminate perceptually relevant borders surprisingly fast, during the early feedforward-driven activity at a latency of ~50 ms, indicating that they are tuned to the features that characterize them. We also revealed a delayed, contextual effect that enhances the V1 responses that are elicited by perceptually relevant borders at a longer latency. Our results reveal multiple mechanisms that allow V1 neurons to infer the layout of objects in natural images.

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来源期刊
CiteScore
19.00
自引率
0.90%
发文量
3575
审稿时长
2.5 months
期刊介绍: The Proceedings of the National Academy of Sciences (PNAS), a peer-reviewed journal of the National Academy of Sciences (NAS), serves as an authoritative source for high-impact, original research across the biological, physical, and social sciences. With a global scope, the journal welcomes submissions from researchers worldwide, making it an inclusive platform for advancing scientific knowledge.
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