Citation Relationships
| Legends: | Link to a Model | Reference cited by multiple papers |
Pugh MC, Ringach DL, Shapley R, Shelley MJ (2000) Computational modeling of orientation tuning dynamics in monkey primary visual cortex. J Comput Neurosci 8:143-59 [PubMed]
References and models cited by this paper | References and models that cite this paper | |||||
Albrecht DG, Geisler WS (1991) Motion selectivity and the contrast-response function of simple cells in the visual cortex. Vis Neurosci 7:531-46 [PubMed] Andrews DP (1965) Perception of contours in the central fovea. Nature 205:1218-1220 Andrews DP (1967) Perception of contour orientation in the central fovea. I: short lines. Vision Res 7:975-97 [PubMed] Ben-Yishai R, Bar-Or RL, Sompolinsky H (1995) Theory of orientation tuning in visual cortex. Proc Natl Acad Sci U S A 92:3844-8 [PubMed] Carandini M, Mechler F, Leonard CS, Movshon JA (1996) Spike train encoding by regular-spiking cells of the visual cortex. J Neurophysiol 76:3425-41 [Journal] [PubMed] Carandini M, Ringach DL (1997) Predictions of a recurrent model of orientation selectivity. Vision Res 37:3061-71 [PubMed] Citron MC, Emerson RC (1983) White noise analysis of cortical directional selectivity in cat. Brain Res 279:271-7 [PubMed] Connors BW, Gutnick MJ, Prince DA (1982) Electrophysiological properties of neocortical neurons in vitro. J Neurophysiol 48:1302-20 [Journal] [PubMed] Das A (1996) Orientation in visual cortex: a simple mechanism emerges. Neuron 16:477-80 [PubMed] Daugman JG (1985) Uncertainty relation for resolution in space, spatial frequency, and orientation optimized by two-dimensional visual cortical filters. J Opt Soc Am A 2:1160-9 [PubMed] de Boer R, Kuyper P (1968) Triggered correlation. IEEE Trans Biomed Eng 15:169-79 [PubMed] DeAngelis GC, Ohzawa I, Freeman RD (1993) Spatiotemporal organization of simple-cell receptive fields in the cat's striate cortex. I. General characteristics and postnatal development. J Neurophysiol 69:1091-117 [Journal] [PubMed] DeAngelis GC, Ohzawa I, Freeman RD (1993) Spatiotemporal organization of simple-cell receptive fields in the cat's striate cortex. II. Linearity of temporal and spatial summation. J Neurophysiol 69:1118-35 [Journal] [PubMed] Douglas RJ, Koch C, Mahowald M, Martin KA, Suarez HH (1995) Recurrent excitation in neocortical circuits. Science 269:981-5 [PubMed] Ferster D (1986) Orientation selectivity of synaptic potentials in neurons of cat primary visual cortex. J Neurosci 6:1284-301 [PubMed] Ferster D, Chung S, Wheat H (1996) Orientation selectivity of thalamic input to simple cells of cat visual cortex. Nature 380:249-52 [Journal] [PubMed] Gielen CC, van Gisbergen JA, Vendrik AJ (1981) Characterization of spatial and temporal properties of monkey LGN Y-cells. Biol Cybern 40:157-70 [PubMed] Gut A (1988) Stopped random walks: Limit theorems and applications Hawken MJ, Parker AJ, Lund JS (1988) Laminar organization and contrast sensitivity of direction-selective cells in the striate cortex of the Old World monkey. J Neurosci 8:3541-8 [PubMed] Heeger DJ (1992) Normalization of cell responses in cat striate cortex. Vis Neurosci 9:181-97 [PubMed] Heeger DJ (1992) Half-squaring in responses of cat striate cells. Vis Neurosci 9:427-43 [PubMed] HUBEL DH, WIESEL TN (1962) Receptive fields, binocular interaction and functional architecture in the cat's visual cortex. J Physiol 160:106-54 [PubMed] Hubel DH, Wiesel TN (1968) Receptive fields and functional architecture of monkey striate cortex. J Physiol 195:215-43 [PubMed] Jones JP, Palmer LA (1987) The two-dimensional spatial structure of simple receptive fields in cat striate cortex. J Neurophysiol 58:1187-211 [Journal] [PubMed] Maex R, Orban GA (1991) Subtraction inhibition combined with a spiking threshold accounts for cortical direction selectivity. Proc Natl Acad Sci U S A 88:3549-53 [PubMed] Maex R, Orban GA (1996) Model circuit of spiking neurons generating directional selectivity in simple cells. J Neurophysiol 75:1515-45 [Journal] [PubMed] Marcelja S (1980) Mathematical description of the responses of simple cortical cells. J Opt Soc Am 70:1297-300 [PubMed] Marmarelis PN, Marmarelis VZ (1978) Analysis of Physiological Systems: The White Noise Approach McCormick DA, Connors BW, Lighthall JW, Prince DA (1985) Comparative electrophysiology of pyramidal and sparsely spiny stellate neurons of the neocortex. J Neurophysiol 54:782-806 [Journal] [PubMed] McLean J, Palmer LA (1989) Contribution of linear spatiotemporal receptive field structure to velocity selectivity of simple cells in area 17 of cat. Vision Res 29:675-9 [PubMed] McLean J, Raab S, Palmer LA (2003) Contribution of linear mechanisms to the specification of local motion by simple cells in areas 17 and 18 of the cat. Vis Neurosci 11:271-94 Movshon JA, Thompson ID, Tolhurst DJ (1978) Spatial summation in the receptive fields of simple cells in the cat's striate cortex. J Physiol 283:53-77 [PubMed] Palmer LA, Davis TL (1981) Receptive-field structure in cat striate cortex. J Neurophysiol 46:260-76 [Journal] [PubMed] Reid RC, Alonso JM (1996) The processing and encoding of information in the visual cortex. Curr Opin Neurobiol 6:475-80 [PubMed] Reid RC, Soodak RE, Shapley RM (1991) Directional selectivity and spatiotemporal structure of receptive fields of simple cells in cat striate cortex. J Neurophysiol 66:505-29 [Journal] [PubMed] Reid RC, Victor JD, Shapley RM (2003) The use of m-sequences in the analysis of visual neurons: linear receptive field properties. Vis Neurosci 14:1015-27 Ringach DL, Hawken MJ, Shapley R (1997) Dynamics of orientation tuning in macaque primary visual cortex. Nature 387:281-4 [Journal] [PubMed] Ringach DL, Hawken MJ, Shapley R (1997) Dynamics of excitatory and inhibitory mechanisms shaping the orientation tuning of neurons in: V1 Soc Neurosci Abstr 23:1544 Ringach DL, Hawken MJ, Shapley R (1998) Spatial-phase dependent and independent response components of oriented neurons in macaque V1 Invest Ophthal And Vis Sci 39:683 Ringach DL, Sapiro G, Shapley R (1997) A subspace reverse-correlation technique for the study of visual neurons. Vision Res 37:2455-64 [PubMed] Somers DC, Nelson SB, Sur M (1995) An emergent model of orientation selectivity in cat visual cortical simple cells. J Neurosci 15:5448-65 [PubMed] Sompolinsky H, Shapley R (1997) New perspectives on the mechanisms for orientation selectivity. Curr Opin Neurobiol 7:514-22 [PubMed] Tolhurst DJ, Dean AF (1991) Evaluation of a linear model of directional selectivity in simple cells of the cat's striate cortex. Vis Neurosci 6:421-8 [PubMed] Victor JD (1992) Nonlinear system analysis in vision: Overview of kernel methods Nonlinear Vision, Pinter RB:Nabet B, ed. pp.1 Worgotter F, Niebur E, Koch C (1991) Quantification and comparison of cell properties in cats striate cortex determined by different types of stimuli J Neurophysio 66:1163-1176 [Journal] | Du X, Ghosh BK, Ulinski P (2005) Encoding and decoding target locations with waves in the turtle visual cortex. IEEE Trans Biomed Eng 52:566-77 [Journal] [PubMed]
Hansen T, Neumann H (2004) Neural mechanisms for the robust representation of junctions. Neural Comput 16:1013-37 [Journal] [PubMed] Kovacic G, Tao L, Cai D, Shelley MJ (2008) Theoretical analysis of reverse-time correlation for idealized orientation tuning dynamics. J Comput Neurosci 25:401-38 [Journal] [PubMed]
Shelley M, McLaughlin D (2002) Coarse-grained reduction and analysis of a network model of cortical response: I. Drifting grating stimuli. J Comput Neurosci 12:97-122 [PubMed] Shelley MJ, Tao L (2001) Efficient and accurate time-stepping schemes for integrate-and-fire neuronal networks. J Comput Neurosci 11:111-9 [PubMed] Wennekers T (2004) Separation of spatio-temporal receptive fields into sums of gaussian components. J Comput Neurosci 16:27-38 [PubMed] | |||||