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Supporting Information for
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Functional modules for visual scene segmentation in macaque visual
cortex
Janis K. Hesse
1,2
and Doris Y. Tsao
1,2,*
1.
Department of Molecular and Cell Biology & Helen Wills Neuroscience Institute,
University
of California Berkeley, Berkeley, CA 94720.
2.
Howard Hughes Medical Institute, Berkeley, CA 94720.
*Corresponding authors:
Doris Y. Tsao
Professor of Biology, Investigator, HHMI
University of California, Berkeley, CA 94720, USA
Email:
tsao.doris@gmail.com
Author contributions:
JKH and DYT designed the research.
JKH performed the experiments and
analyzed the data. JKH and DYT wrote the paper.
Conflict of Interest
: The authors declare no competing financial interests.
Acknowledgments
: The
work was supported by the Howard Hughes Medical Institute and the
Simons Foundation.
Classifications:
Biological Sciences, Neuroscience.
Keywords:
segmentation; figure
-
ground; border
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ownership; disparity; visual cortex; vision;
decoding
This PDF file incl
udes:
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Figures S1 to S2
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Figure
S
1
.
Retinotopy of segmentation patches.
To investigate the relationship between
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retinotopy and segmentation
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related activation, in a separate experiment, we presented figures at
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specific positions rather than spanning the entire visual field.
Purple
outlines indicate segmentation
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patches defined
by activation to a texture stimulus spanning the entire visual field, as shown in Fig.
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1b. Columns from left to right indicate contrast to figures presented along the horizontal meridian,
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vertical meridian, and four increasing eccentricities. Figures were
defined by (
a
) texture, (
b
) motion,
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or (
c
) disparity.
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Figure
S2
. Cluster of consistent border
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ownership cells across days in monkey T
. See text
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for details. Same conventions as in Fig. 5.
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