Contextual-Dependent Attention Effect on Crowded Orientation Signals in Human Visual Cortex
- Creators
- Chen, Nihong
- Bao, Pinglei
- Tjan, Bosco S.
Abstract
A target becomes hard to identify with nearby visual stimuli. This phenomenon, known as crowding, places a fundamental limit on conscious perception and object recognition. To understand the neural representation of crowded stimuli, we used fMRI and a forward encoding model to reconstruct the target-specific feature from multivoxel activation patterns evoked by orientation patches. Orientation-selective response profiles were constructed in V1–V4 for a target embedded in different contexts. Subjects of both sexes either directed their attention over all the orientation patches or selectively to the target. In the context with a weak crowding effect, attending to the target enhanced the orientation selectivity of the response profile; such effect increased along the visual pathway. In the context with a strong crowding effect, attending to the target enhanced the orientation selectivity of the response profile in the earlier visual area, but not in V4. The increase and decrease of orientation selectivity along the visual hierarchy demonstrate a contextual-dependent attention effect on crowded orientation signals: in the context with a weak crowding effect, selective attention gradually resolves the target from nearby distractors along the hierarchy; in the context with a strong crowding effect, while selective attention maintains the target feature in the earlier visual area, its effect decreases in the downstream area. Our findings reveal how the human visual system represents the target-specific feature at multiple stages under the limit of attention selection in a cluttered scene.
Additional Information
© 2018 the authors. Beginning six months after publication the Work will be made freely available to the public on SfN's website to copy, distribute, or display under a Creative Commons Attribution 4.0 International (CC BY 4.0) license (https://creativecommons.org/licenses/by/4.0/). Received March 27, 2018; revised Aug. 3, 2018; accepted Aug. 7, 2018. This work was supported by National Institutes of Health R01-EY017707. This paper is dedicated to Prof. Bosco Tjan, who passed away due to a tragic incident on December 2, 2016. We thank Fang Fang, Christopher Baker, Zhong-Lin Lu, and Xiu Yang for helpful discussions and feedback on early versions of the manuscript. The authors declare no competing financial interests. Author contributions: N.C. wrote the first draft of the paper; N.C. and P.B. edited the paper; N.C. and B.S.T. designed research; N.C. and B.S.T. performed research; N.C., P.B., and B.S.T. analyzed data; N.C. wrote the paper.Attached Files
Published - 8433.full.pdf
Supplemental Material - inline-supplementary-material-1.docx
Supplemental Material - inline-supplementary-material-2.eps
Supplemental Material - inline-supplementary-material-3.docx
Supplemental Material - inline-supplementary-material-4.eps
Supplemental Material - inline-supplementary-material-5.docx
Supplemental Material - inline-supplementary-material-6.docx
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Additional details
- PMCID
- PMC6158691
- Eprint ID
- 90246
- Resolver ID
- CaltechAUTHORS:20181011-122734491
- R01-EY017707
- NIH
- Created
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2018-10-11Created from EPrint's datestamp field
- Updated
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2021-11-16Created from EPrint's last_modified field