Encoding of Binocular Disparity by Complex Cells in the Cat's Visual Cortex

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The Journal of Neurophysiology Vol. 77 No. 6 June 1997, pp. 2879-2909
Copyright ©1997 The American Physiological Society

Encoding of Binocular Disparity by Complex Cells in the Cat's Visual Cortex

Izumi Ohzawa, Gregory C. Deangelis, and Ralph D. Freeman

Group in Vision Science, School of Optometry, University of California, Berkeley, California 94720-2020

Ohzawa, Izumi, Gregory C. DeAngelis, and Ralph D. Freeman. Encoding of binocular disparity by complex cells in thecat's visual cortex. J. Neurophysiol. 77: 2879-2909, 1997. Toexamine the roles that complex cells play in stereopsis, we haverecorded extracellularly from isolated single neurons in the striatecortex of anesthetized paralyzed cats. We measured binocular responsesof complex cells using a comprehensive stimulus set that encompassesall possible combinations of positions over the receptive fieldsfor the two eyes. For a given position combination, stimulus contrastcould be the same for the two eyes (2 bright or 2 dark bars) oropposite (1 bright and 1 dark). These measurements provide a binocularreceptive field (RF) profile that completely characterizes complexcell responses in a joint domain of left and right stimulus positions.Complex cells typically exhibit a strong selectivity for binoculardisparity, but are only broadly selective for stimulus position.For most cells, selectivity for disparity is more than twice asnarrow as that for position. These characteristics are highlydesirable if we assume that a disparity sensor should exhibitposition invariance while encoding small changes in stimulus depth.Complex cells have nearly identical binocular RFs for bright anddark stimuli as long as the sign of stimulus contrast is the samefor the two eyes. When stimulus contrast is opposite, the binocularRF also is inverted such that excitatory subregions become suppressive.We have developed a disparity energy model that accounts for thebehavior of disparity-sensitive complex cells. This is a hierarchicalmodel that incorporates specific constraints on the selectionof simple cells from which a complex cell receives input. Experimentaldata are used to examine quantitatively predictions of the model.Responses of complex cells generally agree well with predictionsof the disparity energy model. However, various types of deviationsfrom the predictions also are found, including a highly elongatedexcitatory region beyond that supported by a single energy mechanism.Complex cells in the visual cortex appear to provide a next levelof abstraction in encoding information for stereopsis based onthe activity of a group of simple-type subunits. In addition toexhibiting narrow disparity tuning and position invariance, thesecells seem to provide a partial solution to the stereo correspondenceproblem that arises in complex natural scenes. Based on theirbinocular response properties, these cells provide a substantialreduction in the complexity of the correspondence problem.

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				S. Tanabe and B. G. Cumming Mechanisms Underlying the Transformation of Disparity Signals from V1 to V2 in the Macaque J. Neurosci., October 29, 2008; 28(44): 11304 - 11314. [Abstract] [Full Text] [PDF]

				J. Wielaard and P. Sajda Circuitry and the Classification of Simple and Complex Cells in V1 J Neurophysiol, November 1, 2006; 96(5): 2739 - 2749. [Abstract] [Full Text] [PDF]

				T. M. Sanada and I. Ohzawa Encoding of Three-Dimensional Surface Slant in Cat Visual Areas 17 and 18 J Neurophysiol, May 1, 2006; 95(5): 2768 - 2786. [Abstract] [Full Text] [PDF]

				H. Tanaka and I. Ohzawa Neural basis for stereopsis from second-order contrast cues. J. Neurosci., April 19, 2006; 26(16): 4370 - 4382. [Abstract] [Full Text] [PDF]

				I. Mareschal, S. C. Dakin, and P. J. Bex Dynamic properties of orientation discrimination assessed by using classification images PNAS, March 28, 2006; 103(13): 5131 - 5136. [Abstract] [Full Text] [PDF]

				S. Tanabe, T. Doi, K. Umeda, and I. Fujita Disparity-Tuning Characteristics of Neuronal Responses to Dynamic Random-Dot Stereograms in Macaque Visual Area V4 J Neurophysiol, October 1, 2005; 94(4): 2683 - 2699. [Abstract] [Full Text] [PDF]

				B. Zhang, H. Bi, E. Sakai, I. Maruko, J. Zheng, E. L. Smith III, and Y. M. Chino Rapid plasticity of binocular connections in developing monkey visual cortex (V1) PNAS, June 21, 2005; 102(25): 9026 - 9031. [Abstract] [Full Text] [PDF]

				R. Perez, A. F. Castro, M. S. Justo, M. A. Bermudez, and F. Gonzalez Retinal Correspondence of Monocular Receptive Fields in Disparity-Sensitive Complex Cells from Area V1 in the Awake Monkey Invest. Ophthalmol. Vis. Sci., April 1, 2005; 46(4): 1533 - 1539. [Abstract] [Full Text] [PDF]

				K. Krug, B. G. Cumming, and A. J. Parker Comparing Perceptual Signals of Single V5/MT Neurons in Two Binocular Depth Tasks J Neurophysiol, September 1, 2004; 92(3): 1586 - 1596. [Abstract] [Full Text] [PDF]

				M. D. Menz and R. D. Freeman Temporal Dynamics of Binocular Disparity Processing in the Central Visual Pathway J Neurophysiol, April 1, 2004; 91(4): 1782 - 1793. [Abstract] [Full Text] [PDF]

				M. D. Menz and R. D. Freeman Functional Connectivity of Disparity-Tuned Neurons in the Visual Cortex J Neurophysiol, April 1, 2004; 91(4): 1794 - 1807. [Abstract] [Full Text] [PDF]

				J. C. A. Read and B. G. Cumming Ocular Dominance Predicts Neither Strength Nor Class of Disparity Selectivity With Random-Dot Stimuli in Primate V1 J Neurophysiol, March 1, 2004; 91(3): 1271 - 1281. [Abstract] [Full Text] [PDF]

				K. P. Kording, C. Kayser, W. Einhauser, and P. Konig How Are Complex Cell Properties Adapted to the Statistics of Natural Stimuli? J Neurophysiol, January 1, 2004; 91(1): 206 - 212. [Abstract] [Full Text]

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				L. M. Martinez and J.-M. Alonso Complex Receptive Fields in Primary Visual Cortex Neuroscientist, October 1, 2003; 9(5): 317 - 331. [Abstract] [PDF]

				B. R. Conway and M. S. Livingstone Space-Time Maps and Two-Bar Interactions of Different Classes of Direction-Selective Cells in Macaque V-1 J Neurophysiol, May 1, 2003; 89(5): 2726 - 2742. [Abstract] [Full Text] [PDF]

				M. S. Livingstone and B. R. Conway Substructure of Direction-Selective Receptive Fields in Macaque V1 J Neurophysiol, May 1, 2003; 89(5): 2743 - 2759. [Abstract] [Full Text] [PDF]

				S. S. Deshmukh and U. S. Bhalla Representation of Odor Habituation and Timing in the Hippocampus J. Neurosci., March 1, 2003; 23(5): 1903 - 1915. [Abstract] [Full Text] [PDF]

The Journal of Neurophysiology Vol. 77 No. 6 June 1997, pp. 2879-2909 Copyright ©1997 The American Physiological Society

Encoding of Binocular Disparity by Complex Cells in the Cat's Visual Cortex

The Journal of Neurophysiology Vol. 77 No. 6 June 1997, pp. 2879-2909
Copyright ©1997 The American Physiological Society

				G. C. DeAngelis and T. Uka Coding of Horizontal Disparity and Velocity by MT Neurons in the Alert Macaque J Neurophysiol, February 1, 2003; 89(2): 1094 - 1111. [Abstract] [Full Text] [PDF]

				D. Mimeault, V. Paquet, F. Lepore, and J.-P. Guillemot Phase-disparity coding in extrastriate area 19 of the cat J. Physiol., December 15, 2002; 545(3): 987 - 996. [Abstract] [Full Text] [PDF]

				S.J.D. Prince, A. D. Pointon, B. G. Cumming, and A. J. Parker Quantitative Analysis of the Responses of V1 Neurons to Horizontal Disparity in Dynamic Random-Dot Stereograms J Neurophysiol, January 1, 2002; 87(1): 191 - 208. [Abstract] [Full Text] [PDF]

				S.J.D. Prince, B. G. Cumming, and A. J. Parker Range and Mechanism of Encoding of Horizontal Disparity in Macaque V1 J Neurophysiol, January 1, 2002; 87(1): 209 - 221. [Abstract] [Full Text] [PDF]

				H. Bridge and B. G. Cumming Responses of Macaque V1 Neurons to Binocular Orientation Differences J. Neurosci., September 15, 2001; 21(18): 7293 - 7302. [Abstract] [Full Text] [PDF]

				Y. Chen, Y. Wang, and N. Qian Modeling V1 Disparity Tuning to Time-Varying Stimuli J Neurophysiol, July 1, 2001; 86(1): 143 - 155. [Abstract] [Full Text] [PDF]

				A. Nieder and H. Wagner Hierarchical Processing of Horizontal Disparity Information in the Visual Forebrain of Behaving Owls J. Neurosci., June 15, 2001; 21(12): 4514 - 4522. [Abstract] [Full Text] [PDF]

				B. R. Conway Spatial Structure of Cone Inputs to Color Cells in Alert Macaque Primary Visual Cortex (V-1) J. Neurosci., April 15, 2001; 21(8): 2768 - 2783. [Abstract] [Full Text] [PDF]

				T. Uka, H. Tanaka, K. Yoshiyama, M. Kato, and I. Fujita Disparity Selectivity of Neurons in Monkey Inferior Temporal Cortex J Neurophysiol, July 1, 2000; 84(1): 120 - 132. [Abstract] [Full Text] [PDF]

				A. Nieder and H. Wagner Horizontal-Disparity Tuning of Neurons in the Visual Forebrain of the Behaving Barn Owl J Neurophysiol, May 1, 2000; 83(5): 2967 - 2979. [Abstract] [Full Text] [PDF]