Abstract
Visual backward masking not only is an empirically rich and theoretically interesting phenomenon but also has found increasing application as a powerful methodological tool in studies of visual information processing and as a useful instrument for investigating visual function in a variety of specific subject populations. Since the dual-channel, sustained-transient approach to visual masking was introduced about two decades ago, several new models of backward masking and metacontrast have been proposed as alternative approaches to visual masking. In this article, we outline, review, and evaluate three such approaches: an extension of the dual-channel approach as realized in the neural network model of retino-cortical dynamics (Ogmen, 1993), the perceptual retouch theory (Bachmann, 1984, 1994), and the boundary contour system (Francis, 1997; Grossberg & Mingolla, 1985b). Recent psychophysical and electrophysiological findings relevant to backward masking are reviewed and, whenever possible, are related to the aforementioned models. Besides noting the positive aspects of these models, we also list their problems and suggest changes that may improve them and experiments that can empirically test them.
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Alais, D., Blake, R., &Lee, S. H. (1998). Visual features that vary together over time group together over space.Nature Neuroscience,1, 160–164.
Alpern, M. (1953). Metacontrast.Journal of the Optical Society of America,43, 648–657.
Alpern, M. (1965). Rod-cone independence in the after-flash effect.Journal of Physiology,176, 462–472.
Andreassi, J. L., De Simone, J. J., &Mellers, B. W. (1975). Amplitude changes in the visual evoked potential with backward masking.Electroencephalography & Clinical Neurophysiology,41, 387–398.
Arrington, K. F. (1994). The temporal dynamics of brightness fillingin.Vision Research,34, 3371–3387.
Azizi, S., Ogmen, H., &Jansen, B. H. (1996). A unified analysis of alpha rhythms, fast synchronized oscillations, and flash evoked potentials.Neural Networks,9, 223–242.
Bachmann, T. (1984). The process of perceptual retouch: Nonspecific afferent activation dynamics in explaining visual masking.Perception, & Psychophysics,35, 69–84.
Bachmann, T. (1988). Time course of the subjective contrast enhancement for a second stimulus in successively paired above-threshold transient forms: Perceptual retouch instead of forward masking.Vision Research,28, 1255–1261.
Bachmann, T. (1994).Psychophysiology of visual masking: The fine structure of conscious experience. Commack, NY: Nova Science.
Bachmann, T. (1997). Visibility of brief images: The dual-process approach.Consciousness & Cognition,6, 491–518.
Bashinski, H. S., &Bacharach, V. R. (1980). Enhancement of perceptual sensitivity as the result of selectively attending to spatial locations.Perception & Psychophysics,28, 241–248.
Békésy, G. von (1969). Mach- and Hering-type lateral inhibition in vision.Vision Research,9, 1483–1499.
Benardete, E. A., Kaplan, E., &Knight, B. W. (1992). Contrast gain control in the primate retina: P cells are not X-like, some M cells are.Visual Neuroscience,8, 483–486.
Berson, D. M., &Mcilwain, J. T. (1982). Retinal Y-cell activation of deep-layer cells in superior colliculus of the cat.Journal of Neurophysiology,47, 700–714.
Bischof, W. F., &Di Lollo, V. (1995). Motion and metacontrast with simultaneous onset of stimuli.Journal of the Optical Society of America A,12, 1623–1636.
Bowen, R. W., &Wilson, H. R. (1994). A two-process analysis of pattern masking.Vision Research,34, 645–657.
Breitmeyer, B. G. (1975). Predictions of visual backward masking from considerations of the spatiotemporal frequency response.Perception,,4, 297–304.
Breitmeyer, B. G. (1978a). Disinhibition of metacontrast masking of Vernier acuity targets: Sustained channels inhibit transient channels.Vision Research,18, 1401–1405.
Breitmeyer, B. G. (1978b). Metacontrast masking as a function of mask energy.Bulletin of the Psychonomic Society,12, 50–52.
Breitmeyer, B. G. (1980). Unmasking visual masking: A look at the “why” behind the veil of the “how.”Psychological Review,87, 52–69.
Breitmeyer, B. G. (1984).Visual masking: An integrative approach. New York: Oxford University Press.
Breitmeyer, B. G. (1986). Eye movements in visual pattern perception. In E. C. Schwab & H. C. Nusbaum (Eds.),Pattern recognition by humans and machines: Vol. 2. Visual perception (pp. 65–86). New York: Academic Press.
Breitmeyer, B. G. (1992). Parallel processing in human vision: History, review, and critique. In J. Brannan (Ed.),Applications of parallel processing in vision (pp. 37–78). Amsterdam: Elsevier.
Breitmeyer, B., Battaglia, F., &Weber, C. (1976). U-shaped backward contour masking during stroboscopic motion.Journal of Experimental Psychology: Human Perception & Performance,2, 167–173.
Breitmeyer, B. G., &Breier, J. I. (1994). Effects of background color on reaction time to stimuli varying in size and contrast: Inferences about human transient channels.Vision Research,34, 1039–1045.
Breitmeyer, B. G., &Ganz, L. (1976). Implications of sustained and transient channels for theories of visual pattern masking, saccadic suppression and information processing.Psychological Review,83, 1–36.
Breitmeyer, B. G., &Kersey, M. (1981). Backward masking by pattern stimulus offset.Journal of Experimental Psychology: Human Perception & Performance,7, 972–977.
Breitmeyer, B. G., Love, R., &Wepman, B. (1974). Contour masking during stroboscopic motion and metacontrast.Vision Research,14, 1451–1456.
Breitmeyer, B. G., May, J. G., &Heller, S. S. (1991). Metacontrast reveals asymmetries at red-green isoluminance.Journal of the Optical Society of America A,8, 1324–1329.
Breitmeyer, B. G., Rudd, M., &Dunn, K. (1981). Metacontrast investigations of sustained-transient channel inhibitory interactions.Journal of Experimental Psychology: Human Perception & Performance,7, 770–779.
Breitmeyer, B. G., &Williams, M. C. (1990). Effects of isoluminantbackground color on metacontrast and stroboscopic motion: Interactions between sustained (P) and transient (M) channels.Vision Research,30, 1069–1075.
Bridgeman, B. (1971). Metacontrast and lateral inhibition.Psychological Review,78, 528–539.
Bridgeman, B., (1975). Correlates of metacontrast in single cells of the cat visual system.Vision Research,15, 91–99.
Bridgeman, B. (1978). Distributed sensory coding applied to simulations of iconic storage and metacontrast.Bulletin of Mathematical Biology,40, 605–623.
Bridgeman, B. (1980). Temporal characteristics of cells in monkey striate cortex measured with metacontrast masking and brightness discrimination.Brain Research,196, 347–364.
Bridgeman, B. (1988). Visual evoked potentials: Concomitants of metacontrast in late components.Perception, & Psychophysics,43, 401–403.
Brussell, E. M., Stober, S. R. &Favreau, O. E. (1978). Contrast reversal in backward masking.Vision Research,18, 225–227.
Burchard, S., &Lawson, R. B. (1973). A U-shaped detection function for backward masking of similar contours.Journal of Experimental Psychology,99, 35–41.
Caputo, G. (1998). Texture brightness filling-in.Vision Research,38, 841–851.
Chen, S., Bedell, H. E., &Ogmen, H. (1995). A target in real motion appears blurred in the absence of other proximal moving targets.Vision Research,35, 2315–2328.
Cohen, M. A., &Grossberg, S. (1984). Neural dynamics of brightness perception: Features, boundaries, diffusion, and resonance.Perception, & Psychophysics,36, 428–456.
Coltheart, M. (1980). Iconic memory and visible persistence.Perception, & Psychophysics,27, 183–228.
Crawford, B. H. (1947). Visual adaptation in relation to brief conditioning stimuli.Proceedings of the Roval Society of London: Series B,134, 283–302.
Crick, F. (1984). Function of the thalamic reticular complex: The searchlight hypothesis.Proceedings of the National Academy of Sciences,81, 4586–4590.
Crick, F., &Koch, C. (1995). Are we aware of neural activity in primary visual cortex?Nature,375, 121–123.
Dakin, S. C, & Hess, R. F. (1997). The spatial mechanism mediating symmetry perception.Vision Research,37, 2915–2930.
De Monasterio, F. M. (1978a). Center and surround mechanisms of opponent-color X and Y ganglion cells of retina of macaques.Journal of Neurophysiology,41, 1418–1434.
De Monasterio, F. M. (1978b). Properties of concentrically organized X and Y ganglion cells of macaque retina.Journal of Neurophysiology,41, 1394–1417.
De Monasterio, F. M., &Schein, S. J. (1980). Protan-like spectral sensitivity of foveal Y ganglion cells of the retina of macaque monkeys.Journal of Physiology,299, 385–396.
Dennett, D. C. (1991).Consciousness explained. Boston: Little, Brown.
Desimone, R., Albright, T. D., Gross, C. G., &Bruce, C. (1984). Stimulus-selective properties of inferior temporal neurons in the macaque.Journal of Neuroscience,4, 2051–2062.
Deyoe, E. A., &Van Essen, D. C. (1988). Concurrent processing streams in monkey visual cortex.Trends in Neurosciences,11, 219–226.
Di Lollo, V., &Bischof, W. F. (1995). Inverse-intensity effect in duration of visible persistence.Psychological Bulletin,118, 223–237.
Di Lollo, V., Bischof, W. F., &Dixon, P. (1993). Stimulus-onset asynchrony is not necessary for motion perception or metacontrast masking.Psychological Science,4, 260–263.
Di Russo, F., &Spinelli, D. (1999). Electrophysiological evidence for an early attentional mechanism in visual processing in humans.Vision Research,39, 2975–2985.
Drasdo, N. (1980). Cortical potentials evoked by pattern presentation in the foveal region. In C. Barber (Ed.),Evoked potentials (pp. 167–174). Baltimore: University Park Press.
Dreher, B., Fukuda, Y., &Rodieck, R. W. (1976). Identification. classification and anatomical segregation of cells with X-like and Y-like properties in the lateral geniculate nucleus of old-world primates.Journal of Physiology,258, 433–452.
Duncan, J. (1985). Two techniques for investigating perception without awareness.Perception, & Psychophysics,38, 296–298.
Duysens, J., Orban, G. A., Cremieux, J., &Maes, H. (1985). Visual cortical correlates of visible persistence.Vision Research,25, 171–178.
Edwards, S. B., Ginsburgh, C. L., Henkel C. K., &Stein, B. E. (1979). Sources of subcortical projections to the superior colliculus in the cat.Journal of Comparative Neurology,184, 309–330.
Edwards, V. T., Hogben, J. H., Clark, C. D., &Pratt, C. (1996). Effects of a red background on magnocellular functioning in average and specifically disabled readers.Vision Research,36, 1037–1045.
Elliott, M. A., &Mueller, H. J. (1998). Synchronous information presented in 40-Hz flicker enhances visual feature binding.Psychological Science,9, 277–283.
Enns, J. T., &Di Lollo, V. (1997). Object substitution: A new form of masking in unattended visual locations.Psychological Science,8, 135–139.
Fahle, M., &Koch, C. (1995). Spatial displacement, not temporal asynchrony, destroys figurai binding.Vision Research,35, 491–494.
Fehrer, E., &Smith, E. (1962). Effects of luminance ratio on masking.Perceptual & Motor Skills,14, 243–253.
Flaherty, T. B., &Matteson, H. H. (1971). Comparison of two measures of metacontrast.Journal of the Optical Society of America,61, 828–830.
Foley, J. M. &Chen.C.-C. (1997). Analysis of the effect of pattern adaptation on pattern pedestal effects: A two-process model.Vision Research,37, 2779–2788.
Foster, D. H. (1976). Rod-cone interaction in the after-flash effect.Vision Research,16, 393–396.
Foster, D. H. (1978). Action of red-sensitive colour mechanism on blue-sensitive colour mechanism in visual masking.Optical Acta,25, 1001–1004.
Foster, D. H. (1979). Interactions between blue- and red-sensitive colour mechanisms in metacontrast masking.Vision Research,19, 921–931.
Foster, D. H., &Mason, R. J. (1977). Interaction between rod and cone systems in dichoptic visual masking.Neuroscience Letters,4, 39–42.
Francis.G. (1996a). Cortical dynamics of lateral inhibition: Visual persistence and IS1.Perception & Psychophysics,58, 1103–1109.
Francis, G. (1996b). Cortical dynamics of visual persistence and temporal integration.Perception & Psychophysics,58, 1203–1212.
Francis, G. (1997). Cortical dynamics of lateral inhibition: Metacontrast masking.Psychological Review,104, 572–594.
Francis, G. (1999). Spatial frequency and visual persistence: Cortical reset.Spatial Vision,12, 31–50.
Francis, G., &Grossberg, S. (1996a). Cortical dynamics of boundary segmentation and reset: Persistence, afterimages, and residual traces.Perception,25, 543–567.
Francis, G., &Grossberg.S. (1996b). Cortical dynamics of form and motion integration: Persistence, apparent motion, and illusory contours.Vision Research,36. 149–174.
Francis.G., Grossberg.S., &Mingolla, E. (1994). Cortical dynamics of feature binding and reset: Control of visual persistence.Vision Research,34, 1089–1104.
Fries, P., Roelfsema, P. R., Engel, A. E., Koenig, P., &Singer, W. (1997). Synchronization of oscillatory responses in visual cortex correlates with perception in interocular rivalry.Proceedings of the National Academy of Sciences,94, 12669–12704.
Frizzi, J. T. (1979). Midbrain reticular stimulation and brightness detection.Vision Research,19, 123–130.
Gerrits, H. J. M., &Timmerman.G. J. M. E. N. (1969). The filling-in process in patients with retinal scotoma.Vision Research.9, 439–442.
Gerrits, H. J. M., &Vendrik.A. J. H. (1970). Simultaneous contrast, filling-in process and information processing in man’s visual system.Experimental Bruin Research,11, 411 - 430.
Glass, R. A., &Sternheim, C. E. (1973). Visual sensitivity in the presence of alternating monochromatic fields of light.Vision Research,13, 689–699.
Glennerster.A., &Parker.A. J. (1997). Computing stereo channels from masking data.Vision Research,37, 2143–2152.
Green.M. F., Nuechterlein, H. H., &Breitmeyer, B. (1997). Backward masking performance in unaffected siblings of schizophrenic patients.Archives of General Psychiatry,54, 465–472.
Green, M. F., Nuechterlein, H. H., Breitmeyer, B., &Mintz, J. (1999). Backward masking performance in remitted, unmedicated schizophrenia: Suggestive evidence for aberrant cortical oscillations.American Journal of Psychiatry,156, 1367–1373.
Green, M. F. Nuechterlein.H. H., &Mintz, J. (1994a). Backward masking in schizophrenia and mania: I. Specifying a mechanism.Archives of General Psychiatry,51, 939–944.
Green, M. F., Nuechterlein, H. H., &Mintz.J. (1994b). Backward masking in schizophrenia and mania: II. Specifying the visual channels.Archives of General Psychiatry,51, 945–951.
Gross, C. G., Rocha-Miranda, C. E., &Bender, D. E. (1972). Visual properties of neurons in inferotemporal cortex of the macaque.Journal of Neurophysiology,35, 96- 111.
Grossberg, S. (1983). The quantized geometry of visual space: The coherent computation of depth, form, and lightness.Behavioral & Brain Sciences,6, 625–657.
Grossberg, S. (1994). 3-D vision and figure-ground separation by visual cortex.Perception & Psychophysics,55, 48–120.
Grossberg, S., &Mingolla, E. (1985a). Neural dynamics of form perception: Boundary completion, illusory figures, and neon color spreading.Psychological Review,92, 173–211.
Grossberg, S., &Mingolla, E. (1985b). Neural dynamics of perceptual grouping: Textures, boundaries, and emergent segmentations.Perception & Psychophysics,38, 141–171.
Grossberg, S., &Todorovic, D. (1988). Neural dynamics of 1-D and 2-D brightness perception: A unified model of classical and recent phenomena.Perception & Psychophysics,43, 241–277.
Growney, R. (1978). Metacontrast as a function of the spatial frequency composition of the target and mask.Vision Research,18, 1117–1123.
Hartveit, E., Ramberg, S. I., &Heggelund, P. (1993). Brainstem modulation of spatial receptive field properties of single cells in the dorsal lateral geniculate nucleus of the cat.Journal of Neurophysiology,70, 1644–1655.
Hassler, R. (1978). Interaction of reticular activating system for vigilance and the truncothalamic and pallidal systems for directing awareness and attention under striatal control. In P. A. Buser & A. Rougeul-Buser (Eds.),Cerebral correlates of conscious experience (pp. 111–129). Amsterdam: North-Holland.
Havig, P. R., Breitmeyer, B. G., & Brown, V. R. (1998, May).The effects of pre-cueing attention on metacontrast masking. Paper presented at the annual meeting of the Association for Research in Vision and Ophthalmology, Ft. Lauderdale, FL.
Heckenmueller, E. G., &Dember, W. N. (1965). Paradoxical brightening of a masked black disc.Psychonomic Science,3, 457–458.
Hellige, J. B., Walsh, D. A., Lawrence, V. S., &Prasse, M. (1979). Figurai relationship effects and mechanisms of visual masking.Journal of Experimental Psychology: Human Perception & Performance,5, 88–100.
Hering, E. (1878).Zur Lehre vom Lichtsinn [On the theory of the sense of light]. Vienna: Gerald u. Soehne.
Hicks, T. P., Lee, B. B., &Vidyasagar, T. R. (1983). The responses of cells in macaque lateral geniculate nucleus to sinusoidal gratings.Journal of Physiology,337. 183–200.
Hoffmann, K.-P., Stone, J., &Sherman, S. M. (1972). Relay of receptive field properties in the dorsal lateral geniculate nucleus of the cat.Journal of Neurophysiology,35, 518–531.
Holender, D. (1986). Semantic activation without conscious identification in dichoptic listening, parafoveal vision, and visual masking: A survey and appraisal.Behavioral & Brain Sciences,9, 1–66.
Hubel.D. H. (1988).Eye. brain, and vision. New York: Scientific American Library.
Hubel.D. H., &Wiesel, T. N. (1965). Receptive fields and functional architecture in two nonstriate visual areas (18 and 19) of the cat.Journal of Neurophysiology,28, 229–289.
Jeffreys, D. A., &Axford, J. G. (1972a). Source locations of pattern specific components of human visual evoked potentials: I. Components of striate cortical origin.Experimental Brain Research,16, 1–21.
Jeffreys, D. A., &Axford, J. G. (1972b). Source locations of pattern specific components of human visual evoked potentials: II. Components of extrastriate cortical origin.Experimental Brain Research,16, 22–40.
Jeffreys, D. A., &Musselwhite, M. J. (1986). A visual evoked potential study of metacontrast masking.Vision Research,26, 631–642.
Kahneman, D. (1967). An onset-onset law for one case of apparent motion and metacontrast.Perception & Psychophysics,2, 577–584.
Kahneman, D. (1968). Method, findings, and theory in studies of visual masking.Psychological Bulletin,70, 404–425.
Kihlstrom, J. F. (1987). The cognitive unconscious.Science,237, 1145–1152.
King, D. L., Hicks, H., &Brown, P. D. (1993). Context-produced increase in visibility.Psychological Research,55, 10–14.
Kinsbourne, M., &Warrington, E. K. (1962a). The effect of an aftercoming random pattern of the perception of brief visual stimuli.Quarterly Journal of Experimental Psychology,14, 223–234.
Kinsbourne, M., &Warrington, E. K. (1962b). Further studies of visuai masking of brief visual stimuli by a random pattern.Quarterly Journal of Experimental Psychology,14, 235–245.
Kiper, D. C. **Gegenfurtner, K. R., &Movshon, A. (1996). Cortical oscillatory responses do not affect visual segmentation.Vision Research,36, 539–544.
Klotz, W., &Neumann, O. (1999). Motor activation without conscious discrimination in metacontrast masking.Journal of Experimental Psychology: Human Perception & Performance,25, 976–992.
Klotz, W., &Wolff, P. (1995). The effect of a masked stimulus on the response to the masking stimulus.Psychological Research,58, 92–101.
Koch, C., &Crick, F. (1994). Some further ideas regarding the neuronal basis of awareness. In C. Koch & J. L. Davis (Eds.),Large-scale neuronal theories of the brain (pp. 93–109). Cambridge, MA: MIT Press.
Kolers, P. (1962). Intensity and contour effects in visual masking.Vision Research,2, 277–294.
Kolers, P., &Rosner, B. S. (1960). On visual masking (metacontrast): Dichoptic observations.American Journal of Psychology,73, 2–21.
Kovács, G., Vogels, R., &Orban, G. A. (1995). Cortical correlate of pattern backward masking.Proceedings of the National Academy of Sciences,92, 5587–5591.
Krueger, J. (1979). Responses to wavelength contrast in the afferent visual systems of the cat and rhesus monkey.Vision Research,19, 1351–1358.
Kruse, W., &Eckhorn, R. (1996). Inhibition of sustained ψ oscillations (35-80 Hz) by fast transient responses in cat visual cortex.Proceedings of the National Academy of Sciences,93, 6112–6117.
Kulikowski, J. J., &Tolhurst, D. J. (1973). Psychophysical evidence for sustained and transient detectors in human vision.Journal of Physiology,232, 149–162.
Kurylo, D. D. (1997). Time course of perceptual grouping.Perception & Psychophysics,59, 142–147.
Laberge, D. (1995).Attentional processing: The brain’s art of mindfulness. Cambridge, MA: Harvard University Press.
Laberge, D., &Brown, V. (1989). Theory of attentional operations in shape identification.Psychological Review,96, 101 -124.
Lacassagne, D., Bedell, H. E., &Ogmen, H. (1995). Perception and discrimination of edge blur: Psychophysical and modeling analyses [Abstract].Investigative Ophthalmology & Visual Science,37, 5732.
Lee, B. B., Martin, P. R., &Valberg, A. (1988). The physiological basis of heterochromatic flicker photometry demonstrated in the ganglion cells of the macaque retina.Journal of Physiology,404, 323–347.
Lee, B. B., Martin, P. R., &Valberg, A. (1989a). Amplitude and phase of responses of macaque retinal ganglion cells to flickering stimuli.Journal of Physiology,414, 245–263.
Lee, B. B., Martin, P. R., &Valberg, A. (1989b). Nonlinear summation of M- and L-cone inputs to phasic retinal ganglion cells of the macaque.Journal of Neuroscience,9, 1433–1442.
Lee, T., Mumford, D., &Schiller, P. (1995). Neuronal correlates of boundary and medial axis representations in primate visual cortex [Abstract].Investigative Ophthalmology & Visual Science,36, S477.
Lennie, P. (1980). Parallel pathways in vision: A review.Vision Research,20, 561–594.
Li, C.-Y., Pei, X., Zhow, Y., &Von Mitzlaff, H.-C. (1991). Role of the extensive area outside the X-cell receptive field in brightness information transmission.Vision Research,31, 1529–1540.
Livingstone, M. (1996). Oscillatory firing and interneuronal correlations in squirrel monkey striate cortex.Journal of Neurophysiology,75, 2467–2485.
Livingstone, M., &Hubel, D. (1984). Anatomy and physiology of a colour system in the primate visual cortex.Journal of Neuroscience,4, 309–356.
Livingstone, M., &Hubel, D. (1988). Segregation of form, color, movement, and depth: Anatomy, physiology, and perception.Science,240, 740–749.
Mach, E. (1865). Über die Wirkung der räumlichen Verteilung des Lichtreizes auf die Netzhaut.Wiener Sitzungsberichte der mathematisch-naturwissenschaftlichen Classe der kaiserlichen Akademie der Wissenschaft,52, 131–144.
Mack, A., &Rock, I. (1998).Inattentional blindness. Cambridge, MA: MIT Press.
MacKnik, S. L., &Livingstone, M. S. (1998). Neuronal correlates of visibility and invisibility in the primate visual system.Nature Neuroscience,1, 144–149.
Maier, J., Dagnelie, G., Spekreijse, H., &Van Dijk, B. W. (1987). Principal components analysis for source localization of VEPs in man.Vision Research,21, 165–177.
Marcel, A. J. (1983). Conscious and unconscious perception: Experiments on visual masking and word recognition.Cognitive Psychology,15, 197–237.
Marrocco, R. T., McClurkin, J. W., &Young, R. A. (1982). Spatial summation and conduction latency classification of cells of the lateral geniculate of macaques.Journal of Neuroscience,2, 1275–1291.
Matin, E. (1974). Saccadic suppression: A review and analysis.Psychological Bulletin,81, 899–917.
Matin, E. (1975). The two-transient (masking) paradigm.Psychological Review,82, 451–461.
Mattson, A. J., Levin, H. S., &Breitmeyer, B. G. (1994). Visual information processing after severe closed head injury: Effects of forward and backward masking.Journal of Neurology, Neurosurgery & Psychiatry,57, 818–824.
Maunsell, J. H. R. (1987). Physiological evidence for two visual subsystems. In L. M. Vaina (Ed.),Matters of intelligence: Conceptual structures in cognitive neuroscience (pp. 59–87). Dordrecht: Reidel.
Maunsell, J. H. R., Ghose, G. M., Assad, J. A., McAdams, C. J., Boudreau, C. E., &Noerager, B. D. (1999). Visual response latencies of magnocellular and parvocellular LGN neurons in macaque monkeys.Visual Neuroscience,16, 1–14.
Maunsell, J. H. R., &Gibson, J. R. (1992). Visual response latencies in striate cortex of the macaque monkey.Journal of Neurophvsiology,68, 1332–1344.
Maunsell, J. H. R., &Schiller, P. H. (1984). Evidence for the segregation of parvo- and magnocellular channels in the visual cortex of macaque monkey.Neuroscience Abstracts,10, 520.
May, J. G., Grannis, S. W., &Porter, R. J., Jr. (1980). The “lag effect” in dichoptic viewing.Brain & Language,11, 19–29.
McKee, S. P., Bravo, M. J., Taylor, D. G., &Legge.G. E. (1994). Stereo matching precedes dichoptic masking.Vision Research,34, 1047–1060.
Merrit, R. D., &Balooh, D. W. (1984). The use of a backward masking paradigm to assess information-processing deficits among schizophrenics: A re-evaluation of Steronko and Woods.Journal of Nervous & Mental Diseases,172, 216–224.
Michaels, C. F., &Turvey, M. T. (1979). Central sources of visual masking: Indexing structures supporting seeing at a single, brief glance.Psychological Research,41, 1–61.
Michimata, C., Okubo, M., &Mugishima, Y. (1999). Effects of background color on the global and local processing of hierarchically organized stimuli.Journal of Cognitive Neuroscience,11, 1–8.
Mitzdorf, U., &Singer, W. (1979). Excitatory synaptic ensemble properties in the visual cortex of the macaque monkey: A current source density analysis of electrically evoked potentials.Journal of Comparative Neurology,187, 71 -84.
Moran, J., &Desimone, R. (1985). Selective attention gates visual processing in the extrastriate cortex.Science,229, 782–784.
Motter, B. C. (1993). Focal attention produces spatially selective processing in visual cortical areas VI, V2, and V4 in the presence of competing stimuli.Journal of Neurophysiology,70, 909–919.
Muise, J. G., Leblanc, R. S., Lavoie, M. E., &Arsenault, A. S. (1991). Two-stage model of visual backward masking: Sensory transmission and accrual of effective information as a function of target intensity and similarity.Perception & Psychophysics,50, 197–204.
Mussap, A. J., &Levi, D. M. (1997). Vernier acuity with plaid masks: The role of oriented filters in vernier acuity.Vision Research,37, 1325–1340.
Neumann, O., &Klotz, W. (1994). Motor responses to nonreportable, masked stimuli: Where is the limit of direct parameter specification? In C. Umiltà & M. Moscovitch (Eds.),Attention and performance XV: Conscious and nonconscious information processing (pp. 123–150). Cambridge, MA: MIT Press, Bradford Books.
Nowak, L. G., Munk, M. H. J., Girard, P., &Bullier, J. (1985). Visual latencies in areas V1 and V2 of the macaque monkey.Visual Neuroscience,12, 371–384.
Ogmen, H. (1993). A neural theory of retinocortical dynamics.Neural Networks,6, 245–273.
Paradiso, M. A., &Nakayama, K. (1991). Brightness perception and filling-in.Vision Research,31, 1221–1236.
Petersen, S. E., Miezin, F. M., &Allman, J. M. (1988). Transient and sustained responses in four extrastriate visual areas of the owl monkey.Experimental Brain Research,70, 55–60.
Posner, M. I. (1980). Orienting of attention.Quarterly Journal of Experimental Psychology,32, 3–25.
Posner.M. I., &Petersen, S. E. (1990). The attention system of the human brain.Annual Review of Neuroscience,13, 25–42.
Posner, M. I., &Rothbart, M. K. (1994). Constructing neuronal theories of mind. In C. Koch & J. L. Davis (Eds.),Large-scale neuronal theories of the brain (pp. 183–199). Cambridge, MA: MIT Press.
Purcell, D. G., &Dember, W. N. (1968). The relation of phenomenal brightness reversal and re-reversal to backward masking and recovery.Perception & Psychophysics,3, 290–292.
Purcell, D. G., Stewart, A. L., &Brunner, R. L. (1974). Metacontrast target detection under light and dark adaptation.Bulletin of the Psychonomic Society,3. 199–201.
Purpura, D. P. (1970). Operations and processes in thalamic and synaptically related neural subsystems. In F. O. Schmitt (Ed.),The neurosciences: Second study program (pp. 458–470). New York: Rockefeller University Press.
Purpura, K., Tranchina, D., Kaplan, E., &Shapley.R. M. (1990). Light adaptation in primate retina: Analysis of changes in gain and dynamics of retinal ganglion cells.Visual Neuroscience,4. 75–93.
Purushothaman, G., Ogmen.H., &Bedell, H. E. (1997). Spatially localized stimuli generate oscillatory metacontrast masking functions.Investigative Ophthalmology & Visual Science,38, S628.
Purushothaman.G., Ogmen, H., &Bedell, H. E. (2000). Gammarange oscillations in backward masking functions and their putative neural correlates.Psychological Review,107, 556–577.
Purushothaman, G., Ogmen, H., Chen, S., &Bedell, H. E. (1998). Motion deblurring in a neural network model of retino-cortical dynamics.Vision Research,38, 1827–1842.
Ramachandran, V. S. (1990). Visual perception in people and machines. In A. Balke & T. Troscianko (Eds.),AI and the eve (pp. 21–77). New York: Wiley.
Ramachandran, V. S., &Cobb, S. (1995). Visual attention modulates metacontrast masking.Nature,373, 66–68.
Ratliff, F. (1965).Mach bands. San Francisco: Holden Day.
Reeves, A. (1981). Metacontrast in hue substitution.Vision Research.21, 907–912.
Rensink, R. A., &Enns.J. T. (1995). Preemption effects in visual search: Evidence for low level grouping.Psychological Review,102, 101–130.
Rieke, F., Warland, D., De Ruyter Van Steveninck, R., &Bialek.W. (1997).Spikes: Exploring the neural code. Cambridge, MA: MIT Press.
Roelfsema, P. R., Lamme, V. A. F., &Spekreijse, H. (1998). Objectbased attention in the primary visual cortex of the macaque monkey.Nature,395, 376–381.
Rogowitz, B. (1983). Spatial/temporal interactions: Backward and forward metacontrast masking with sine-wave gratings.Vision Research,23, 1057–1073.
Rolls, E. T. (1992). Neurophysiological mechanisms underlying face processing within and beyond the temporal cortical visual areas.Philosophical Transactions of the Roval Society of London: Series B,335, 11–21.
Rolls, E. T., &Tovée, M. J. (1994). Processing speed in the cerebral cortex and the neurophysiology of visual masking.Proceedings of the Royal Society of London: Series B,257, 9–15.
Rolls, E. T., Tovée, M. J., &Panzeri, S. (1999). The neurophysiology of backward visual masking: Information analysis.Journal of Cognitive Neuroscience,11, 300–311.
Rolls, E. T., Tovée, M. J., Purcell, D. G., Stewart, A. L., &Azzopardi, P. (1994). The responses of neurons in the temporal cortex of primates, and face identification and detection.Experimental Brain Research,101, 473–484.
Rossi, A. F., &Paradiso, M. A. (1999). Neural correlates of perceived brightness in the retina, lateral geniculate nucleus, and striate cortex.Journal of Neuroscience,19, 6145–6156.
Roth, E. C., &Hellige, J. B. (1998). Spatial processing and hemispheric asymmetry: Contributions of the transient/magnocellular visual system.Journal of Cognitive Neuroscience,10, 472–484.
Saccuzzo, D. P., &Schubert, D. L. (1981). Backward masking as a measure of slow processing in schizophrenia spectrum disorders.Journal of Abnormal Psychology,90, 305–312.
Sagi, D., &Julesz, B. (1985). Enhanced detection in the aperture of focal attention during simple discrimination tasks.Nature,321, 693–695.
Sato, T. (1988). Effects of attention and stimulus interaction on visual responses of inferior temporal neurons in macaque.Journal of Neurophysiology,60, 344–364.
Scheerer.E. (1973). Integration, interruption and processing rate in visual backward masking.Psychologische Forschung,36, 71–93.
Schiller, P. H. (1965). Metacontrast interference as determined by a method of comparisons.Perceptual & Motor Skills,20, 279–285.
Schiller, P. H. (1986). The central visual system.Vision Research,26, 1351–1386.
Schiller, P. H., &Chorover, S. L. (1966). Metacontrast: Its relation to evoked potentials.Science,153, 1398–1400.
Schiller, P. H., &Colby, C. L. (1983). The responses of single cells in the lateral geniculate nucleus of the rhesus monkey to color and luminance contrast.Vision Research,23, 1631–1641.
Schiller, P. H., &Lee, K. (1991). The role of primate extrastriate area V4 in vision.Science,251, 1251–1253.
Schiller, P. H., &Malpeli.J. G. (1978). Functional specificity of lateral geniculate nucleus laminae of the rhesus monkey.Journal of Neurophysiology,41, 788–797.
Schiller, P. H., &Smith, M. C. (1968). Monoptic and dichoptic metacontrast.Perception & Psychophysics,3, 237–239.
Schmolesky, M. T., Wang, Y., Hanes, D. G., Thompson, K. G., Leutgeb, S., Schall, J. D., &Leventhal, A. G. (1998). Signal timing across the macaque visual system.Journal of Neurophysiology,79, 3272–3278.
Schroeder, C. E., Tenke, C. E., Givre, J. C., Arezzo, J. C., &Vaughn, H. G., Jr. (1991). Striate cortical contribution to the surface-recorded pattern-reversal VEP in the alert monkey.Vision Research,31, 1143–1157.
Shannon, C. E. (1948). A mathematical theory of communication.AT&T Bell Laboratories Technical Journal,27, 379–423.
Shapley, R. (1992). Parallel retinocortical channels: X and Y and P and M. In J. Brannan (Ed.),Applications of parallel processing in vision (pp. 3–36). Amsterdam: North-Holland.
Sheer, D. E. (1984). Focused arousal, 40 Hz EEG, and dysfunction. In T. Elbert, B. Rockstroh, W. Lutzenberger, & N. Birbaumer (Eds.),Self regulation of the brain and behavior (pp. 66–84). Berlin: Springer-Verlag.
Shelley-Tremblay, J., &Mack, A. (1999). Metacontrast masking and attention.Psychological Science,10, 508–515.
Sherrick, M. F., &Dember, W. N. (1970). Visual backward masking and the area-detection relation.Psychonomic Science,19, 127–128.
Singer.W. (1977). Control of thalamic transmission by corticofugal and ascending reticular pathways in the visual system.Physiological Reviews,57, 386–420.
Singer, W. (1979). Central-core control of visual cortex functions. In F. O. Schmitt & F. G. Worden (Eds.),The neurosciences: Fourth study program (pp. 1093–1110). Cambridge, MA: MIT Press.
Singer, W. (1994). Putative functions of temporal correlations in neocortical processing. In C. Koch & J. L. Davis (Eds.),Large-scale neuronal theories of the brain (pp. 201–237). Cambridge, MA: MIT Press.
Singer, W., &Bedworth, N. (1973). Inhibitory interaction between X and Y units in cat lateral geniculate nucleus.Brain Research,49, 291–307.
Singer, W., &Gray, C. M. (1995). Visual feature integration and the temporal correlation hypothesis.Annual Review of Neuroscience,18, 555–586.
Singer, W., Tretter, F., &Cynader, M. (1975). Organization of cat striate cortex: A correlation of receptive-field properties with afferent and efferent connections.Journal of Neurophysiology,38, 1080–1098.
Singer, W., Tretter, F., &Cynader, M. (1976). The effect of reticular stimulation on spontaneous and evoked activity in the cat visual cortex.Brain Research,102, 71–90.
Skottun, B. C., &Parke, L. A. (1999). The possible relationship between visual deficits and dyslexia: Examination of a critical assumption.Journal of Learning Disability,32, 2–5.
Slaghuis, W. L., &Bakker, V. J. (1995). Forward and backward visual masking of contour by light in positive- and negative-symptom schizophrenia.Journal of Abnormal Psychology,104, 41–54.
Somers, D. C., Dale, A. M., Seiffert, A. E., &Tootell, R. B. H. (1999). Functional MRI reveals spatially specific attentional modulation in human primary visual cortex.Proceedings of the National Academy of Sciences,96, 1663–1668.
Sperling, G. (1963). A model for visual memory tasks.Human Factors,5, 19–31.
Sperling, G. (1965). Temporal and spatial visual masking: I. Masking by impulse flashes.Journal of the Optical Society of America,55, 541–559.
Steriade, M., &McCarley, R. W. (1990).Brainstem control of wakefulness and sleep. New York: Plenum.
Stewart, A. L., &Purcell, D. G. (1974). Visual backward masking by a flash of light: A study of U-shaped detection functions.Journal of Experimental Psychology,103, 553–566.
Stigler, R. (1910). Chronotopische Studien über den Umgebungskontrast [Chronometric studies of surround contrast].Pflügers Archivfür Gesamte Physiologie,135, 365–435.
Stone, J., &Dreher, B. (1973). Projection of X- and Y-cells of the cat’s lateral geniculate nucleus to areas 17 and 18 of visual cortex.Journal of Neurophysiology,36, 551 -567.
Stoper, A. E., &Mansfield, J. G. (1978). Metacontrast and paracontrast suppression of a contourless area.Vision Research,18, 1669–1674.
Stromeyer, C. F., &Julesz, B. (1972). Spatial-frequency masking in vision: Critical bands and spread of masking.Journal of the Optical Society of America,62, 1221 -1232.
Sugase, Y., Yamane, S., Ueno, S., &Kawano, K. (1999). Global and fine information coded by single neurons in the temporal visual cortex.Nature,400, 869–873.
Tallon-Baudry, C., Bertrand, O., Delpuech, C., &Pernier, J. (1996). Stimulus specificity of phase-locked and non-phase-locked 40 Hz visual responses in humans.Journal of Neuroscience,16, 4240–4249.
Thompson, K. G., &Schall, J. D. (1999). The detection of visual signals by macaque frontal eye field during masking.Nature Neuroscience,2, 283–288.
Tolhurst, D. J. (1973). Separate channels for the analysis of the shape and movement of a moving visual stimulus.Journal of Physiology,231, 385–402.
Tsumoto, T., &Suzuki, D. A. (1978). Inhibitory and excitatory binocular convergence to visual cortex neurons of the cat.Brain Research,159, 85–97.
Turvey, M. T. (1973). On peripheral and central processes in vision: Inferences from an information-processing analysis of masking with patterned stimuli.Psychological Review,80, 1–52.
Tytla, M. E., &Steinbach.M. J. (1984). Metacontrast masking in amblyopia.Canadian Journal of Psychology,38, 369–385.
Van Essen, D. C. (1985). Functional organization of primate visual cortex. In A. Peters & E. G. Jones (Eds.),Cerebral cortex (Vol. 3, pp. 259–329). New York: Plenum.
Van Essen, D. C., Anderson, C. H., &Felleman, D. J. (1992). Information processing in the primate visual system: An integrated systems perspective.Science,225, 419–423.
Vaughn, H. G., Jr., &Silverstein, L. (1968). Metacontrast and evoked potentials: A reappraisal.Science,160, 207–208.
Von Der Heydt, R., Friedman, H. S., Zhou, H., Komatsu, H., Hanazawa, A., &Murakami, I. (1997). Neuronal responses in monkey VI and V2 unaffected by metacontrast [Abstract].Investigative Ophthalmology & Visual Science,38, S459.
Watanabe, T., Sasaki, Y., Miyauchi, S., Putz, B., Fujimaki, N., Nielsen, M., Takino, R., &Miyakawa, S. (1998). Attentionregulated activity in human primary visual cortex.Journal of Neurophysiology,79, 2218–2221.
Weisstein, N. (1968). A Rashevsky-Landahl neural net: Simulation of metacontrast.Psychological Review,75, 494–521.
Weisstein, N. (1971). W-shaped and U-shaped functions obtained for monoptic and dichoptic disk-disk masking.Perception & Psychophysics,9, 275–278.
Weisstein, N. (1972). Metacontrast. In D. Jameson & L. M. Hurvich (Eds.),Handbook of sensory physiology: Vol. 7/4. Visual psychophysics (pp. 233–272). New York: Springer-Verlag.
Weisstein, N., Jurkens, T., &Onderisin, T. (1970). Effect of forcedchoice vs. magnitude-estimation measures on the waveform of metacontrast functions.Journal of the Optical Societv of America,60, 978–980.
Weisstein, N., Ozog, G., &Szoc, R. (1975). A comparison and elaboration of two models of metacontrast.Psychological Review,82, 325–343.
Werner, H. (1935). Studies of contour: I. Qualitative analysis.American Journal of Psychology,47, 40–64.
Werner, H. (1940). Studies of contour strobostereoscopic phenomena.American Journal of Psychology,53, 418–422.
Westheimer, G., &Hauske, G. (1975). Temporal and spatial interference with Vernier acuity.Vision Research,15, 1137–1141.
Wiesel, T. N., &Hubel, D. H. (1966). Spatial and chromatic interactions in the lateral geniculate body of the rhesus monkey.Journal of Neurophysiology,29, 1115–1156.
Williams, M. C., Breitmeyer, B. G., Lovegrove, W. J., &Gutierrez, C. (1991). Metacontrast with masks varying in spatial frequency and wavelength.Vision Research,31, 2017–2023.
Williams, M. [C], Lecluyse, K., &Bologna, N. (1990). Masking by light as a measure of visual integration time in normal and disabled readers.Clinical Vision Sciences,5, 335–343.
Williams, M. [C], Molinet, K., &Lecluyse, K. (1989). Visual masking as a measure of temporal processing in normal and disabled readers.Clinical Vision Sciences,4, 137–144.
Williams, M. C., &Weisstein, N. (1981). Spatial frequency response and perceived depth in the time-course of object superiority.Vision Research,21, 631–646.
Wolf, J. M., Chun, M. M., &Friedman-Hill, S. R. (1995). Making use of texton gradients: Visual search and perceptual grouping exploit the same parallel processes in different ways. In T. V. Papathomas, C. Chubb, A. Gorea, & E. Kowler (Eds.),Early vision and beyond (pp. 189–197). Cambridge, MA: MIT Press.
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This work was supported in part by Grant R01-MH49892 from the National Institute of Mental Health. H.O. is in the Department of Electrical and Computer Engineering.
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Breitmeyer, B.G., Ogmen, H. Recent models and findings in visual backward masking: A comparison, review, and update. Perception & Psychophysics 62, 1572–1595 (2000). https://doi.org/10.3758/BF03212157
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DOI: https://doi.org/10.3758/BF03212157