Receptive Fields of Disparity-Tuned Simple Cells in Macaque V1
Abstract
Binocular simple cells in primary visual cortex (V1) are the first cells along the mammalian visual pathway to receive input from both eyes. Two models of how binocular simple cells could extract disparity information have been put forward. The phase-shift model proposes that the receptive fields in the two eyes have different subunit organizations, while the position-shift model proposes that they have different overall locations. In five fixating macaque monkeys, we recorded from 30 disparity-tuned simple cells that showed selectivity to the disparity in a random dot stereogram. High-resolution maps of the left and right eye receptive fields indicated that both phase and position shifts were common. Single cells usually showed a combination of the two, and the optimum disparity was best correlated with the sum of receptive field phase and position shift.
Additional Information
Copyright © 2003 Cell Press. All rights reserved. Received: July 19, 2001 Revised: January 16, 2003 Accepted: February 26, 2003 Published: April 9, 2003 We wish to thank David Freeman for all the programming, Tamara Chuprina for technical assistance, Mike Lafratta for machining the hardware, David Hubel, Kevin Duffy, and Christopher Pack for reading the manuscript and making useful comments, and the anonymous reviewers for their valuable contribution. This work was supported by NIH grant EY13135.Attached Files
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Supplemental Material - mmc1.jpg
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Additional details
- Eprint ID
- 52772
- Resolver ID
- CaltechAUTHORS:20141212-133934434
- EY13135
- NIH
- Created
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2014-12-12Created from EPrint's datestamp field
- Updated
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2021-04-27Created from EPrint's last_modified field