Citations for A CORF computational model of a simple cell that relies on LGN input (Azzopardi & Petkov 2012)
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Azzopardi G, Petkov N (2012) A CORF computational model of a simple cell that relies on LGN input outperforms the Gabor function model. Biol Cybern 106:177-89 [PubMed]
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Albrecht DG, De Valois RL, Thorell LG (1980) Visual cortical neurons: are bars or gratings the optimal stimuli? Science 207:88-90 [PubMed] Andrews BW, Pollen DA (1979) Relationship between spatial frequency selectivity and receptive field profile of simple cells. J Physiol 287:163-76 [PubMed] Azzopardi G, Petkov N (2013) Trainable COSFIRE filters for keypoint detection and pattern recognition. IEEE Trans Pattern Anal Mach Intell 35:490-503 [Journal] [PubMed] Canny J (1986) A computational approach to edge detection. IEEE Trans Pattern Anal Mach Intell 8:679-98 [PubMed] Chung S, Ferster D (1998) Strength and orientation tuning of the thalamic input to simple cells revealed by electrically evoked cortical suppression. Neuron 20:1177-89 [PubMed] Croner LJ, Kaplan E (1995) Receptive fields of P and M ganglion cells across the primate retina. Vision Res 35:7-24 [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] De Valois KK, De Valois RL, Yund EW (1979) Responses of striate cortex cells to grating and checkerboard patterns. J Physiol 291:483-505 [PubMed] De Valois RL, Yund EW, Hepler N (1982) The orientation and direction selectivity of cells in macaque visual cortex. Vision Res 22:531-44 [PubMed] De_valois RL, Albrecht DG, Thorell LG (1978) Cortical cells: bar and edge detectors, or spatial frequency filters? Frontiers in visual science, Cool SJ:Smith IEL, ed. pp.544 DeAngelis GC, Ohzawa I, Freeman RD (1995) Receptive-field dynamics in the central visual pathways. Trends Neurosci 18:451-8 [PubMed] Du_buf jmh (1993) Responses of simple cells-events, interferences, and ambiguities And Ambiguities Biol Cybern 68(4):321-333 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] Finn IM, Priebe NJ, Ferster D (2007) The emergence of contrast-invariant orientation tuning in simple cells of cat visual cortex. Neuron 54:137-52 [Journal] [PubMed] Gabor D (1946) Theory of communication J Inst Electr Eng 93:429-457 Glezer VD, Tsherbach TA, Gauselman VE, Bondarko VM (1980) Linear and non-linear properties of simple and complex receptive fields in area 17 of the cat visual cortex. A model of the field. Biol Cybern 37:195-208 [PubMed] Grigorescu C, Petkov N, Westenberg MA (2003) Contour detection based on nonclassical receptive field inhibition. IEEE Trans Image Process 12:729-39 [Journal] [PubMed] Grigorescu C, Petkov N, Westenberg MA (2004) Contour and boundary detection improved by surround suppression of texture edges Image Vis Comp 22(8):609-622 Heitger F (1995) Feature detection using suppression and enhancement Technical Report TR-163 Hubel DH (1982) Exploration of the primary visual cortex, 1955-78. Nature 299:515-24 [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 (1974) Sequence regularity and geometry of orientation columns in the monkey striate cortex. J Comp Neurol 158:267-93 [Journal] [PubMed] Irvin GE, Casagrande VA, Norton TT (2007) Center/surround relationships of magnocellular, parvocellular, and koniocellular relay cells in primate lateral geniculate nucleus. Vis Neurosci 10:363-73 Jones JP, Palmer LA (1987) An evaluation of the two-dimensional Gabor filter model of simple receptive fields in cat striate cortex. J Neurophysiol 58:1233-58 [Journal] [PubMed] Kovesi P (1999) Image features from phase congruency Videre 1(3):1-26 Kulikowski JJ, Bishop PO (1981) Fourier analysis and spatial representation in the visual cortex. Experientia 37:160-3 [PubMed] Macleod ID, Rosenfeld A (1974) The visibility of gratings: spatial frequency channels or bar-detecting units? Vision Res 14:909-15 [PubMed] Maffei L, Morrone C, Pirchio M, Sandini G (1979) Responses of visual cortical cells to periodic and non-periodic stimuli. J Physiol 296:27-47 [PubMed] Marcelja S (1980) Mathematical description of the responses of simple cortical cells. J Opt Soc Am 70:1297-300 [PubMed] Martin D, Fowlkes C, Tal D, Malik J (2001) A database of human segmented natural images and its application to evaluating segmentation algorithms and measuring ecological statistics Proceedings Of The 8th International Conference Computer Vision 2:416-423 Martin DR, Fowlkes CC, Malik J (2004) Learning to detect natural image boundaries using local brightness, color, and texture cues. IEEE Trans Pattern Anal Mach Intell 26:530-49 [Journal] [PubMed] Mehrotra R, Namuduri KR, Ranganathan N (1992) Gabor filter-based edge-detection Pattern Recogn 25(12):1479-1494 Morrone MC, Burr DC (1988) Feature detection in human vision: a phase-dependent energy model. Proc R Soc Lond B Biol Sci 235:221-45 [Journal] [PubMed] Morrone MC, Owens RA (1987) Feature detection from local energy Pattern Recogn Lett 6(5):303-313 Movshon JA, Thompson ID, Tolhurst DJ (1978) Receptive field organization of complex cells in the cat's striate cortex. J Physiol 283:79-99 [PubMed] Petkov N (1995) Biologically motivated computationally intensive approaches to image pattern-recognition Future Gener Comput Syst 11(4-5):451-465 Priebe NJ, Ferster D (2006) Mechanisms underlying cross-orientation suppression in cat visual cortex. Nat Neurosci 9:552-61 [Journal] [PubMed] Reid RC, Alonso JM (1995) Specificity of monosynaptic connections from thalamus to visual cortex. Nature 378:281-4 [Journal] [PubMed] Ringach D, Shapley R (2004) Reverse correlation in neurophysiology Cognitive Science 28:147-166 Rodieck RW (1965) Quantitative analysis of cat retinal ganglion cell response to visual stimuli. Vision Res 5:583-601 [PubMed] Rosenthaler L, Heitger F, Kubler O, Von_der_heydt R (1992) Detection of general edges and keypoints Sandini G (ed) Proceedings Of The European Conference Computer Vision ECCV92:78-86 Sclar G, Freeman RD (1982) Orientation selectivity in the cat's striate cortex is invariant with stimulus contrast. Exp Brain Res 46:457-61 [PubMed] Sclar G, Maunsell JH, Lennie P (1990) Coding of image contrast in central visual pathways of the macaque monkey. Vision Res 30:1-10 [PubMed] Shin MC, Goldgof D, Bowyer KW (1998) An objective comparison methodology of edge detection algorithms using a structure from motion task Proceedings of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition 98CB36231:190-195 Sonka M, Hlavac V, Boyle R (1999) Image processing, analysis, and machine vision Stork DG, Wilson HR (1990) Do Gabor functions provide appropriate descriptions of visual cortical receptive fields? J Opt Soc Am A 7:1362-73 [PubMed] Tyler CW (1978) Selectivity for spatial frequency and bar width in cat visual cortex. Vision Res 18:121-2 [PubMed] von der Heydt R (1987) Approaches to visual cortical function. Rev Physiol Biochem Pharmacol 108:69-150 [PubMed] Xu X, Bonds AB, Casagrande VA (2007) Modeling receptive-field structure of koniocellular, magnocellular, and parvocellular LGN cells in the owl monkey (Aotus trivigatus). Vis Neurosci 19:703-11 Xu X, Ichida JM, Allison JD, Boyd JD, Bonds AB, Casagrande VA (2001) A comparison of koniocellular, magnocellular and parvocellular receptive field properties in the lateral geniculate nucleus of the owl monkey (Aotus trivirgatus). J Physiol 531:203-18 [PubMed] Zhang YJ (1996) A survey on evaluation methods for image segmentation Pattern Recogn 29(8):1335-1346 | ||