| Literature DB >> 29606580 |
Yiliang Lu1, Jiapeng Yin1, Zheyuan Chen2, Hongliang Gong2, Ye Liu2, Liling Qian1, Xiaohong Li1, Rui Liu3, Ian Max Andolina1, Wei Wang4.
Abstract
How primates perceive objects along with their detailed features remains a mystery. This ability to make fine visual discriminations depends upon a high-acuity analysis of spatial frequency (SF) along the visual hierarchy from V1 to inferotemporal cortex. By studying the transformation of SF across macaque parafoveal V1, V2, and V4, we discovered SF-selective functional domains in V4 encoding higher SFs up to 12 cycles/°. These intermittent higher-SF-selective domains, surrounded by domains encoding lower SFs, violate the inverse relationship between SF preference and retinal eccentricity. The neural activities of higher- and lower-SF domains correspond to local and global features, respectively, of the same stimuli. Neural response latencies in high-SF domains are around 10 ms later than in low-SF domains, consistent with the coarse-to-fine nature of perception. Thus, our finding of preserved resolution from V1 into V4, separated both spatially and temporally, may serve as a connecting link for detailed object representation.Keywords: V4; coarse-to-fine visual perception; cortical functional organization; local-global processing; primates; retinal eccentricity; spatial frequency selectivity; visual acuity; visual cortices V1 and V2; visual hierarchy
Mesh:
Year: 2018 PMID: 29606580 DOI: 10.1016/j.neuron.2018.03.009
Source DB: PubMed Journal: Neuron ISSN: 0896-6273 Impact factor: 17.173