Login as Guest
Select Language

XooNIps Search
   Advanced

Index Tree

Site Information

.

Listing item

/ Public / Visiome 2004 / Visual System / Visual Pathway / V1/Area 17/Striate Cortex / Cell Type / Simple Cell   
Order by No.Item per page

1 - 20 of 125 Items

PREV  1   2   3   4   5   6   7   NEXT
icon_model 2D Gabor Wavelet Transform and Inverse Transform (Reconstruction) Demo using Matlab 
Daisuke Kato . Izumi Ohzawa
icon_papar A comparison of binocular depth mechanisms in areas 17 and 18 of the cat visual cortex. 
Ferster D
J Physiol 1981 ;311 :623-55 [PMID: 7264985]
icon_papar A feature extractor for curvilinear patterns: a design suggested by the mammalian visual system. 
Fukushima K
Kybernetik 1970 ;7 (4) :153-60 [PMID: 5512393]
icon_papar A mathematical model for the self-organization of orientation columns in visual cortex. 
M. Miyashita , S. Tanaka
NeuroReport 1992 ;3 :625-640
icon_papar A Model for the development of simple cell receptive fields and the ordered arrangement of orientation columns through activity-dependent competition between ON- and OFF-center inputs 
Miller K. D.
J. Neuroscience 1994 ;14 (1) :409-441
icon_papar A neural network for visual pattern recognition 
Fukushima Kunihiko
IEEE Computer 1988 ;21 (3) :65-75
icon_papar A self-organization model for disparity-selective simple cells 
M. Miyahsita , S. Tanaka
Neurosci Reserch (suppl.) 2001 ;25 :S114
icon_papar A simple model accounts for the response of disparity-tuned V1 neurons to anticorrelated images. 
Read JC , Parker AJ , Cumming BG
Vis Neurosci 2002 ;19 (6) :735-53 [PMID: 12688669]
icon_papar An intracellular recording study of stimulus-specific response properties 
Sato H , Daw NW , Fox K
Brain Res 1991 ;544 (1) :156-61 [PMID: 1855136]
icon_papar Ascending projections of simple and complex cells in layer 6 of the cat striate cortex. 
Hirsch JA , Gallagher CA , Alonso JM , Martinez LM
J Neurosci 1998 ;18 (19) :8086-94 [PMID: 9742175]
icon_papar Binocular interaction and depth sensitivity in striate and prestriate cortex of behaving rhesus monkey. 
Poggio GF , Fischer B
J Neurophysiol 1977 ;40 (6) :1392-405 [PMID: 411898]
icon_papar Binocular interactions and spatial disparity sensitivity in the superior colliculus of the Siamese cat. 
Bacon BA , Lepore F , Guillemot JP
Exp Brain Res 1999 ;124 (2) :181-92 [PMID: 9928841]
icon_papar Biological image motion processing: a review. 
Nakayama K
Vision Res 1985 ;25 (5) :625-60 [PMID: 3895725]
icon_papar Brain mechanisms of vision. 
Hubel DH , Wiesel TN
Sci Am 1979 ;241 (3) :150-162 [PMID: 91195]
icon_papar Breaking Rotation symmetry in a self-organizing map model for orientation map development 
Riesenhuber M. , Bauer H.-U. , Brockmann D. , Geisel T.
Neural Computation 1998 ;10 :717-730
icon_papar Context, state and the receptive fields of striatal cortex cells 
Worgotter F , Eysel U. T.
Trans in Neuroscience 2000 ;23 :497-503
icon_papar Contrast gain control in the cat visual cortex. 
Ohzawa I , Sclar G , Freeman RD
Nature 1982 ;298 (5871) :266-8 [PMID: 7088176]
icon_papar Contrast gain control in the cat's visual system. 
Ohzawa I , Sclar G , Freeman RD
J Neurophysiol 1985 ;54 (3) :651-67 [PMID: 4045542]
icon_papar Contrast gain control in the kitten's visual system. 
Sclar G , Ohzawa I , Freeman RD
J Neurophysiol 1985 ;54 (3) :668-75 [PMID: 4045543]
icon_papar Contrast gain control in the visual cortex: monocular versus binocular mechanisms. 
Truchard AM , Ohzawa I , Freeman RD
J Neurosci 2000 ;20 (8) :3017-32 [PMID: 10751454]
PREV  1   2   3   4   5   6   7   NEXT



. .