Bibliography of Bela Julesz [August, 1995]

[1] Julesz, B., "Network theory," Tech. Univ. Budapest Lecture notes (1950). In Hungarian.

[2] Julesz, B., "Analysis of TV signals by correlation methods," Ph.D. Thesis, Hungarian Academy of Science, (1955).

[3] Julesz, B., "Report on Comparison of PCM and FM systems," Budapest. (1955) In Hungarian.

[4] Julesz, B., "Method of coding television signals based on edge detection," Bell System Technical Journal 38, p. 1001-20 (1959).

[5] Julesz, B., "Binocular depth perception of computer-generated patterns," Bell System Technical Journal 39, p. 1125-62 (1960).

[6] Julesz, B., "Binocular depth perception and pattern recognition," in Proc. 4th London Symp. Info. Theory, p. 212-24, London, Cherry, C. (Ed.), Butterworth & Co. (1961).

[7] Julesz, B., "Conditions for stereopsis on binocular rivalry of contours," Journal of the Optical Society of America 52, p. 1327 (1962).

[8] Julesz, B., "Towards the automation of binocular depth perception (AUTOMAP)," in Proceedings IFIPS Cong., Munich, (1962).

[9] Julesz, B., "Visual pattern discrimination," IRE Transactions on Information Theory IT-8, p. 84-92 (1962).

[10] Julesz, B. and Miller, J.E., "Automatic stereoscopic presentation of functions of two variables," Bell System Technical Journal 41, p. 663-76 (Mar. 1962).

[11] Julesz, B. and Guttman, N., "Auditory memory," JASA 35(11), p. 1895 (1963).

[12] Julesz, B., "Effects of contour flicker of apparent motion on retinally stabilized images," Journal of the Optical Society of America 53(11), p. 1336 (1963).

[13] Guttman, N. and Julesz, B., "Lower limits of auditory periodicity analysis," JASA 35, p. 610 (1963).

[14] Julesz, B., "Stereopsis and binocular rivalry of contours," JASA 53(8), p. 994-99 (1963).

[15] Julesz, B., "Binocular depth perception without familiarity cues," Science 145, p. 356-62 (1964).

[16] Julesz, B. and Pennington, K.S., "Equidistributed information mapping: An analogy to holograms and memory," Journal of the Optical Society of America 55(5), p. 604 (1965).

[17] Julesz, B. and Guttman, N., "Higher-order statistics and short-term auditory memory," in Proc. 5th Int. Cong. on Acous., Liege, (1965).

[18] Julesz, B., "Some neurophysiological problems of stereopsis," in Proc. Symp. Info. Processing in Sight Sensory Syst., 5, p. 604, Pasadena, CA, Nye, P.W. (Ed.), (1965).

[19] Julesz, B., "Texture and visual perception," Sci. Amer. 212, p. 38-48 (1965).

[20] Julesz, B., "Visual perception and Roentgenography," in Proc. Conf. Teachers of Radiology, p. 15-19, Philadelphia, PA, (1965).

[21] Julesz, B., "Binocular disappearance of monocular symmetry," Science 153, p. 657-58 (1966).

[22] Frisch, H.L. and Julesz, B., "Figure-ground perception and random geometry," Perception and Psychophysics 1, p. 389-98 (1966).

[23] Julesz, B., "Perception time of binocular depth and information measure," in Proc. 4th Canadian Symp. Commun., Montreal, (1966).

[24] Julesz, B., "Random patterns and visual perception," in Proc. Symp. Human Use of Computing Machines, p. 69-72, Bell Laboratories, Murray Hill, NJ, (1966).

[25] Julesz, B. and Levitt, H., "Spatial chords," JASA 40(5), p. 1253 (1966).

[26] Julesz, B., "Computers, patterns and depth perception," Bell Labs Rec., p. 261-66 (Sept. 1966).

[27] Fender, D. and Julesz, B., "Extension of Panum's fusional area in binocularly stabilized vision," Journal of the Optical Society of America 57(6), p. 819-30 (1967).

[28] Julesz, B., "Some recent studies in vision relevant to form perception," in Proc. Symp. Models for the Perception of Speech and Visual Form - Nov. 1964, p. 136-54, Boston, MA, (1967).

[29] Julesz, B. and Spivack, G.J., "Stereopsis based on vernier acuity cues alone," Science 157, p. 563-65 (1967).

[30] Julesz, B., "Suppression of monocular symmetry during binocular fusion without rivalry," Bell Syst. Tech. Jour. 46, p. 1203-21 (1967).

[31] Julesz, B., "Cluster formation at various perceptual levels," in Proc. Int. Conf. on Methodologies of Pattern Recognition, p. 297-315, Academic Press, Hawaii, Watanabe, S. (Ed.), (1968).

[32] Julesz, B. and Payne, R.A., "Differences between monocular and binocular stroboscopic movement perception," Vision Research 8, p. 433-44 (1968).

[33] Julesz, B. and Johnson, S.C., "Mental holography: Stereograms portraying ambiguously perceivable surfaces," Bell System Technical Journal 47, p. 2075-93 (1968).

[34] Julesz, B., "Perception during the eclipse of monocular cues," Psychology Today 2, p. 16-23 (1968).

[35] Julesz, B., "Problems of pattern recognition and perceptual psychology," in Pattern recognition, Kanal, L., (Ed.), Thompson Book Co.: Washington, DC. p. 143-54 (1968).

[36] Julesz, B. and Johnson, S.C., "Stereograms portraying ambiguously perceivable surfaces," Proceedings of the National Academy of Sciences 61(2), p. 437-41 (1968).

[37] Julesz, B., "Stereopsis as an aspect of perception," in Encyclopedia of linguistics, information and control, Pergamon Press: London. (1968).

[38] Julesz, B., "Binocular depth perception," in Processing of optical data by organisms and by machines: Proc. Int. School of Physics "Enrico Fermi" Course XLIII, 1968, Reichardt, W., (Ed.), Academic Press: p. 589-605 (1969).

[39] Julesz, B., "Foundations of cyclopean perception," Journal of the Optical Society of America 59, p. 1544 (1969).

[40] Julesz, B., "Optical constancy phenomena," in Processing of optical data by organisms and by machines: Proc. Int. School of Physics "Enrico Fermi" Course XLIII, 1968, Reichardt, W., (Ed.), Academic Press: p. 417-30 (1969).

[41] Julesz, B., "Pattern discrimination," in Processing of optical data by organisms and by machines: Proc. Int. School of Physics "Enrico Fermi" Course XLIII, 1968, Reichardt, W., (Ed.), Academic Press: p. 580-88 (1969).

[42] Julesz, B. and White, B., "Short-term visual memory and the Pulfrich phenomenon," Nature 222, p. 639-41 (1969).

[42a] Julesz, B., Slepian, D., and Sondhi, M.M., "Correction for Astigmatism by lens rotation and image processing," JOSA, p. 485 (1969).

[43] Julesz, B. and Hesse, R.I., "Inability to perceive the direction of rotational movement of line segments," Nature 225, p. 243-44 (1970).

[44] Julesz, B., "The separation of retinal and central processes in vision," in Psychotomimetic drugs, Efron, D.H., (Ed.), Raven Press: New York. p. 183-91 (1970).

[45] Julesz, B., "Binocular depth perception in man: A cooperative model of stereopsis," in Proc. 4th Cong. Deutsche Gesellschaft fur Kybernetik, 1970, p. 301-15, Berlin, (1971).

[46] Julesz, B., "Critical bands in vision and audition," in Proc. 7th Int. Cong. on Acous., p. 445-48, 3(Section C-H-S: Subjective acoustics), Akademiai Kiado, Budapest, (1971).

[47] Julesz, B., "Foundations of cyclopean perception," Chicago, IL: Univ. of Chicago Press. (1971).

[48] Blakemore, C. and Julesz, B., "Stereopsis depth aftereffect produced without monocular cues," Science 171, p. 386-88 (1971).

[49] Julesz, B., "Cyclopean perception and neurophysiology," in Proc. Seminar Neurophys. of the Visual Mechanism Using Single Unit Recording at Various Levels in the Visual Pathway, Canberra, (1972). Also Invest. Ophthalmol. 11(6), pp. 541-548 (1972).

[50] Stromeyer, C.F., III and Julesz, B., "Spatial frequency masking in vision: Critical bands and spread of masking," Journal of the Optical Society of America 62(10), p. 1221-32 (1972).

[51] Julesz, B., Hirsh, I.J., and Denes, P.B., "Visual and auditory perception: An essay of comparison," in Human communication: A unified view, David, E.E., Jr., (Ed.), McGraw-Hill, p. 283-340, (1972).

[52] Julesz, B., "Binocular depth perception," in Proc. 3rd Int. Conf. "From theoretical physics to biology, 1971, p. 388-403, Karger, Versailles, (1973).

[53] Julesz, B., Gilbert, E.N., Shepp, L.A., and Frisch, H.L., "Inability of humans to discriminate between visual textures that agree in second-order statistics - revisited," Perception 2, p. 391-405 (1973).

lincoln[54] Harmon, L.D. and Julesz, B., "Masking in visual recognition: Effects of two-dimensional filtered noise," Science 180, p. 1194-97 (1973).

[55] Julesz, B. and Chiarucci, E., "Short-term memory for stroboscopic movement perception," Perception 2, p. 249-260 (1973).

[56] Julesz, B., "Synergetics, cooperative phenomena in multi-component systems," in Proc. Symp. on Synergetics - Apr.-May 1972, p. 194-206, Schloss Elmau, Haken, H. (Ed.), B.G. Teubner (1973).

[57] Julesz, B., "Hierarchical systems in visual perception," in Cooperative effects, Haken, H., (Ed.), North-Holland Pub. Co., p. 229-46 (1974).

[58] Julesz, B., "Two-dimensional spatial-frequency-tuned channels in visual perception," in Proc. Int. Symp. Sig. Analysis and Pattern Recognition, p. 177-97, Inbar, G.F. (Ed.), John Wiley & Sons (1974).

[59] Julesz, B., "Cooperative phenomena in binocular depth perception," Amer. Sci., p. 32-43 (Jan-Feb 1974).

[60] Frisby, J.P. and Julesz, B., "Depth reduction effects in random-line stereograms," Perception 4, p. 151-158 (1975).

[61] Breitmeyer, B., Julesz, B., and Kropfl, W., "Dynamic random-dot stereograms reveal an up-down anisotropy and left-right isotropy between cortical hemifields," Science 187, p. 269-70 (1975).

[62] Julesz, B. and Miller, J.E., "Independent spatial frequency tuned channels in binocular fusion and rivalry," Perception 4, p. 125-43 (1975).

[63] Julesz, B. and Frisby, J.P., "Some new subjective contours in random-line stereograms," Perception 4, p. 145-150 (1975).

[64] Frisby, J.P. and Julesz, B., "The effect of orientation difference on stereopsis as a function of line length," Perception 4, p. 179-86 (1975).

[65] Breitmeyer, B. and Julesz, B., "The role of on and off transients in determining the psychophysical spatial frequency response," Vision Research 15, p. 411-15 (1975).

[66] Julesz, B., "Experiments in the visual perception of texture," Scientific Amer. 232(4), p. 34-43 (April 1975).

[67] Julesz, B., "Anisotropies and scotomas of binocular disparity detectors in humans," in Orthoptics, Past, Present, Future: Trans. 3rd Int. Orthoptic Cong. 1975, Boston, MA, (1976).

[68] Julesz, B., Breitmeyer, B., and Kropfl, W., "Binocular-disparity- dependent upper-lower hemifield anisotropy and left-right hemifield isotropy as revealed by dynamic random-dot stereograms," Perception 5, p. 129-41 (1976).

[69] Julesz, B., Petrig, B., and Buttner, U., "Fast determination of stereopsis in rhesus monkey using dynamic random-dot stereograms," Journal of the Optical Society of America 66(10), p. 1909 (1976).

[70] Julesz, B. and Chang, J.J., "Interaction between pools of binocular disparity detectors tuned to different disparities," Biological Cybernetics 22, p. 107-119 (1976).

[71] Julesz, B. and Tyler, C.W., "Neurontropy, an entropy-like measure of neural correlation in binocular fusion and rivalry," Biological Cybernetics 23, p. 25-32 (1976).

[72] Hogben, J.H., Julesz, B., and Ross, J., "Short-term memory for symmetry," Vision Research 16(8), p. 861-66 (1976).

[73] Frisby, J.P. and Julesz, B., "The effect of length differences between corresponding lines on stereopsis from single and multi-line stimuli," Vision Research 16, p. 83-87 (1976).

[74] Tyler, C.W. and Julesz, B., "The neural transfer characteristics (neurontropy) for binocular stochastic stimulation," Biological Cybernetics 23, p. 33-37 (1976).

[75] Julesz, B., "Perceptual limits of texture discrimination and their implications to figure ground separation," in Proc. Conf. Formal Theories of Visual Perception, Nijmegen, Holland, July 1976, Leeuwenberg, E. and Buffart, H. (Ed.), J. Wiley & Sons (1977).

[76] Julesz, B., "Recent results with dynamic random-dot stereograms," in Three-dimensional Imaging: Proc. Soc. Photo-Optical Instr. Eng. 120, San Diego, CA, (Aug. 1977).

[77] Julesz, B., "Imaging in 3-dimensions: Three dimensional imaging techniques," IEEE Commun. Soc. Magazine 15(6), p. Academic Press (Nov. 1977).

[78] Tyler, C.W. and Julesz, B., "Binocular cross-correlation in time and space," Vision Research 18, p. 101-05 (1978).

[79] Julesz, B. and Oswald, H., "Binocular utilization of monocular cues that are undetectable monocularly," Perception 7(3), p. 315-22 (1978).

[80] Julesz, B., "Global stereopsis: Cooperative phenomena in stereopsis depth perception," in Handbook of sensory physiology, VIII: Perception, Held, R., Leibowitz, H.W., and Teuber, H., (Ed.), Springer-Verlag: (1978).

[81] Lehmann, D. and Julesz, B., "Lateralized cortical potentials evoked in humans by dynamic random-dot stereograms," Vision Research 18, p. 1265-71 (1978).

[82] Caelli, T. and Julesz, B., "On perceptual analyzers underlying visual texture discrimination: Part I," Biological Cybernetics 28(3), p. 167-75 (1978).

[83] Caelli, T., Julesz, B., and Gilbert, E., "On perceptual analyzers underlying visual texture discrimination: Part II," Biological Cybernetics 29(4), p. 201-14 (1978).

[84] Julesz, B., Gilbert, E.N., and Victor, J.D., "Visual discrimination of textures with identical third-order statistics," Biological Cybernetics 31(3), p. 137-40 (1978).

[85] Julesz, B., "Visual texture discrimination using random-dot patterns: Comment," Journal of the Optical Society of America 68(2), p. 268-70 (1978).

[86] Julesz, B. and Caelli, T., "On the limits of Fourier decompositions in visual texture perception," Perception 8, p. 69-73 (1979).

[87] Caelli, T. and Julesz, B., "Psychophysical evidence for global feature processing in visual texture discrimination," Journal of the Optical Society of America 69(5), p. 675-78 (1979).

[88] Julesz, B., "Random-dot correlogram test for eidetic imagery, Open Peer Commentary: "Twenty years of haunting eidetic imagery: Where's the ghost?," The Behav. and Brain Sci. 2, p. 583-629 (1979).

[89] Julesz, B. and Chang, J.J., "Symmetry perception and spatial-frequency channels," Perception 8, p. 711-718 (1979).

[90] Braddick, O., Atkinson, J., Julesz, B., Kropfl, W., Bodis-Wollner, I., and Raab, E., "Cortical binocularity in infants," Nature 288, p. 363-65 (1980).

[91] Julesz, B., Kropfl, W., and Petrig, B., "Large evoked potentials to dynamic random-dot correlograms and stereograms permit quick determination of stereopsis," Proc. Nat. Acad. Sci. USA 77(4), p. 2348-51 (1980).

[92] Burt, P. and Julesz, B., "Modifications of the classical notion of Panum's fusional area," Perception 9, p. 671-82 (1980).

[93] Tyler, C.W. and Julesz, B., "On the depth of the cyclopean retina," Exp. Brain Res. 40, p. 196-202 (1980).

[94] Julesz, B., "Spatial nonlinearities in the instantaneous perception of textures with identical power spectra," Phil. Trans. Royal Soc. B290, p. 83-94 (1980).

[95] Julesz, B., "Spatial-frequency channels in one-, two-, and three- dimensional vision: Variations on an auditory theme by Bekesy," in Visual coding and adaptability, Harris, C.S., (Ed.), Lawrence Erlbaum Assoc. (1980).

[96] Burt, P. and Julesz, B., "A disparity gradient limit for binocular fusion," Science 208, p. 615-17 (May 1980).

[97] Julesz, B., "A theory of preattentive texture discrimination based on first-order statistics of textons," Biological Cybernetics 41, p. 131-38 (1981).

[98] Bodis-Wollner, I., Barris, M.C., Mylin, L.H., Julesz, B., and Kropfl, W., "Binocular stimulation reveals cortical components of the human visual evoked potential," Electroencephalography & Clinical Neurophysiology 52, p. 298-305 (1981).

[99] Petrig, B., Julesz, B., Kropfl, W., Baumgartner, G., and Anliker, M., "Development of stereopsis and cortical binocularity in human infants: Electrophysiological evidence," Science 213, p. 1402-05 (1981).

[100] Julesz, B. and Schumer, R.A., "Early visual perception," Ann. Rev. Psychol. 32, p. 575-627 (1981).

[101] Miezin, F.M., Myerson, J., Julesz, B., and Allman, J.M., "Evoked potentials to dynamic random-dot correlograms in monkey and man: A test for cyclopean perception," Vision Research 21, p. 177-179 (1981).

[102] Julesz, B., "Figure and ground perception in briefly presented iso-dipole textures," in Perceptual organization, Kubovy, M. and Pomerantz, J.R., (Ed.), Lawrence Erlbaum Assoc.: (1981).

[103] Julesz, B., "Perception of order reveals two visual systems," Leonardo 14(4), p. 311-22 (1981).

[104] Julesz, B., "Psychologically determined receptive fields in monocular and binocular texture perception," in Proc. 29th Symp. Advanced in physiological sciences 30: Neural communication and control, Szekely, G., Labos, E., and Danjanovich, S. (Ed.), Pergamon Press (1981).

[105] Julesz, B., "Textons, the elements of texture perception and their interactions," Nature 290, p. 91-97 (1981).

[106] Julesz, B., "Theoretical and clinical advances in global stereopsis," in Advances in physiological sciences, Proc. 28th Int. Cong. Phys. Sc., Budapest, 1980, 16: Sensory functions, Grastyan, E. and Molnar, P. (Ed.), Pergamon Press (1981).

[106a] Julesz, B., Book review: From images to surfaces: A computational study of the human early visual system, by E.L. Grimson, MIT Press, Cambridge, MA, 1981. J. Opt. Soc. Am. 72, p. 1292 (1982).

[107] Julesz, B. and Kropfl, W., "Binocular neurons and cyclopean visually evoked potentials in monkey and man," Ann. New York Acad. of Sci. , p. 37-44 (1982).

[108] Breitmeyer, B.G., Kropfl, W., and Julesz, B., "The existence and role of retinotopic and spatiotopic forms of visual persistence," Acta Psychologica 52, p. 175-96 (1982).

[109] Julesz, B., "The role of terminators in preattentive perception of line textures," in Proc. Conf. Recognition of Pattern and Form, March 1979, p. 33-58, Univ. of Texas at Austin, (1982).

[109a ] Julesz, B., "Texton theory of two-dimensional and three-dimensional vision," in Proceedings and Display of Three Dimensional Data, Pearson, J.J. (ed.), Proceedings of SPIE Conference, August 26-27, 1982, San Diego, CA, Vol. 367, p. 2 (1982). (published abstract)

[110] Julesz, B., "From images to surfaces: A computational study of the human early visual system," Journal of the Optical Society of America 72, p. 1292, MIT Press (Sep. 1982).

[111] Julesz, B., "Binocular depth perception in normal adults and its early development," Fortschritte der Ophthalmologie 80, p. 378-83 (1983).

[112] Chang, J.J. and Julesz, B., "Displacement limits for spatial frequency filtered random-dot cinematograms in apparent motion," Vision Research 23, p. 1379-1385 (1983).

[113] Chang, J.J. and Julesz, B., "Displacement limits, directional anisotropy and direction versus form discrimination in random-dot cinematograms," Vision Research 23(6), p. 639-646 (1983).

[114] Bergen, J.R. and Julesz, B., "Parallel versus serial processing in rapid pattern discrimination," Nature 303, p. 696-98 (1983).

[115] Julesz, B., "Textons, rapid focal attention shifts, and iconic memory. Open Peer Commentary: "The impending demise of the icon: A critique of the concept of iconic storage in visual information processing"," The Behav. and Brain Sci. 6(1), p. 25-27 (1983).

[116] Burt, P. and Julesz, B., "The disparity gradient limit for binocular fusion: An answer to J.D. Krol and W.A. van de Grind," Perception 11, p. 621-24 (1983).

[117] Julesz, B. and Bergen, J.R., "Textons, the fundamental elements in preattentive vision and perception of textures," Bell Syst. Tech. Jour. 62(6), p. 1619-45 (July-Aug 1983).

[118] Bergen, J.R. and Julesz, B., "Rapid discrimination of visual patterns," IEEE Trans. Syst., Man and Cybern. SMC-13(5) (Sep-Oct 1983). Spec. Issue, Proc. of Neural and Sensory Information.

[119] Hyson, M., Julesz, B., and Fender, D.H., "Eye movements and neural remapping during fusion of misaligned random-dot stereograms," Journal of the Optical Society of America 73(12) (Dec. 1983).

[120] Julesz, B., "The role of analog models in our digital age. Open Peer Commentary: "The quantized geometry of visual space: The coherent computation of depth, form, and lightness"," The Behav. and Brain Sci. 6(4), p. 668-69 (Dec 1983).

[121] Julesz, B., "A brief outline of the texton theory of human vision," Trends in Neurosciences 7, p. 41-45 (1984).

[122] Julesz, B. and Wooten, B.R., "Adaptation in a peephole: A texton theory of preattentive vision," in Sensory experience, adaptation and perception (Festschrift for Ivo Kohler), Spillman, L., (Ed.), Lawrence Erlbaum Assoc.: (1984).

[123] Schumer, R.A. and Julesz, B., "Binocular disparity modulation sensitivity to disparities offset from the plane of fixation," Vision Research 24(6), p. 533-42 (1984).

[124] Chang, J.J. and Julesz, B., "Cooperative phenomena in apparent movement perception of random-dot cinematograms," Vision Research 24, p. 1781-1788 (1984).

[125] Julesz, B. and Papathomas, T.V., "On spatial-frequency channels and attention," Perception and Psychophysics 36(4), p. 398-99 (1984).

[126] Julesz, B. and Moffatt, G.T., The texton theory of vision sheds light on how we see, AT&T Bell Labs Rec., pp. 4-7 (1984).

[127] Julesz, B., Toward an axiomatic theory of preattentive vision, pp. 585-612 in Dynamic aspects of neocortical function, Edelman, G., Gall, W. E., and Cowan, W. M. (Eds.), Wiley, New York (1984).

[128] Julesz, B. and Harmon, L.D., Noise and recognizability of coarse quantized images, Nature 308(8), pp. 211-12 (Mar. 1984).

[129] Chang, J.J. and Julesz, B., Cooperative and non-cooperative processes of apparent movement of random-dot cinematograms, Spatial Vision 1(1) (1985).

[130] Sagi, D. and Julesz, B., Detection versus discrimination of visual orientation, Perception 14, pp. 619-28 (1985).

[131] Sagi, D. and Julesz, B., Fast noninertial shifts of attention, Spatial Vision 1, pp. 141-149 (1985).

[132] Julesz, B. and Papathomas, T.V., Independent channels in stereopsis, Investigative Ophthalmology and Visual Science: Proc. of ARVO meeting, May 1985 26(3), p. 242 (1985).

[133] Julesz, B., Preconscious and conscious processes in vision, pp. 333-359 in Pattern recognition mechanisms, Chagas, C., Gattas, R., and Gross, C. (Eds.), Pontifica Acad. Sci., The Vatican (1985).

[134] Sagi, D. and Julesz, B., "Where" and "what" in vision, Science 228, pp. 1217-19 (1985).

[135] Julesz, B., Computational vision, a link between psychology and robotics, Contemporary Psych. 31(11), pp. 872-874 (1986).

[136] Sagi, D. and Julesz, B., Enhanced detection in the aperture of focal attention during simple discrimination tasks, Nature 321, pp. 693-695 (1986).

[137] Julesz, B., Preattentive human vision: Link between neurophysiology and psychophysics, pp. 585-604 in Handbook of Physiology, Neurophysiology Section Five, Higher Functions of the Nervous System, Plum, F. (Ed.), American Physiological Soc. (1986).

[138] Sagi, D. and Julesz, B., Short-range limitation on detection of feature differences, Spatial Vision 2, pp. 39-49 (1987).

[139] Julesz, B., Stereoscopic vision, Vision Research 26(9), pp. 1601-1612 (1986). Twenty-fifth Anniversary Issue.

[140] Julesz, B., Texton gradients: The texton theory revisited, Biological Cybernetics 54, pp. 245-251 (1986).

[141] Schiavone, J.A., Papathomas, T.V., Julesz, B., Kreitzberg, C.W., and Perkey, D.J., Anaglyphic stereo animation of meteorological fields. Proc. Int. Conf. on Interactive Info. and Processing Syst. for Meteorology, Oceanography & Hydrology, pp. 64-71 (Jan 1986).

[142] Papathomas, T.V. and Julesz, B., A spatio-temporal stereo paradox, Supplement to Investigative Ophthalmology & Visual Science 28(3), p. 294 (1987). Proc. of ARVO Meeting, May 1987.

[143] Papathomas, T.V. and Julesz, B., Animation with fractals from variations on the Mandelbrot set, Visual Computer 3, pp. 23-26 (1987).

[144] Papathomas, T.V., Schiavone, J.A., and Julesz, B., Stereo animation for very large data bases: Case study - meteorology, IEEE Computer Graphics and Applications 7(9), pp. 18-27 (1987).

[145] Papathomas, T.V., Schiavone, J.A., and Julesz, B., Applications of computer graphics to the visualization of meterological phenomena, Computer Graphics 22.4, Invited paper, pp. 327-334 (1988).

[146] Julesz, B. and Kršse, B., Features and spatial filters, Nature 333, pp. 302-303 (1988).

[147] Papathomas, T.V. and Julesz, B., Stereoscopic illusion based on the proximity principle, Perception 18(5), pp. 589-594, (1989).

[148] Papathomas, T.V. and Julesz, B., The application of depth separation to the display of multivariable phenomena, in Dynamic graphics for statistics, Cleveland, W.S. and McGill, M.E. (Eds.), Wadsworth Publ. (1988).

[149] Papathomas, T.V., Julesz, B., and Chodrow, S.E., True 3D animation for displaying VLSI modeling data, IEEE Computer Graphics and Applications 8(1), pp. 6-9 (1988).

[150] Farell, B. and Julesz, B., Globally perceived directional flow in static images, Perception 18(2), pp. 155-172 (1989).

[151] Papathomas, T.V., Gorea, A., Julesz, B., and Chang, J.J., The relative strength of depth and orientation in motion perception, Investigative Ophthalmology and Visual Sci. 29(3), p. 401 (1988).

[152] Papathomas, T.V. and Julesz, B., Lie differential operators in animal and machine vision, in From the pixels to the features: Proceedings of the COST 13 Conference, Simon, J. C. (Ed), North-Holland pp. 115-126 (1988). Invited chapter.

[153] Julesz, B., Global stereopsis, p. 437 in Strabismus and amblyopia: Werner-Gren Int. Symp. Series, Vol. 49, Lennerstrand, G., vonNoorden, G.K., and Campos, E.C. (Eds.), MacMillan (1988).

[154] Julesz, B. and Papathomas, T.V., Asymmetries in binocular motion perception from disparity and rivalry differences, Investigative Ophthalmology and Visual Sci. 29(3), p. 266 (1988).

[155] Julesz, B., Texture perception, in Encyclopedia of Neuroscience, Adelman, G. (Ed.), Boston: Birkhauser, pp. 1200-1202 (1987).

[156] Julesz, B., AI and Early Vision - Part I, Proceedings of 11th European Conference on Visual Perception (ECVP), Bristol, England, Aug. 3 - Sept. 3, 1988, in AI and the Eye, Blake, A. and Troscianko, T. (Eds.), John Wiley & Sons, Ltd., pp. 9-20, (1990).

[157] Julesz, B., AI and Early Vision - Part II, in Proceedings of the SPIE/SPSE Symposium on Electronic Imaging, Conference on Human Vision, Visual Processing and Digital Display, January 18-20, 1989, Los Angeles, CA, Vol. 1077, Rogowitz, Bernice R. (Ed.), Bellingham, WA, SPIE, pp. 246-268 (1989).

[158] Kršse, B.J.A. and Julesz, B., The control and speed of shifts of attention, Vision Res. 29(11), pp. 1607-1619 (1989).

[159] Schiavone, J.A., Papathomas, T.V. and Julesz, B., Visualization of meteorological data: a review of computer graphics applications, presented at the 5th International Conference on Interactive Information and Processing Systems for Meteorology, Oceanography and Hydrology of the American Meteorological Society, Anaheim, CA, Jan. 29 - Feb. 3, 1989.

[160] Papathomas, T.V., Gorea, A. and Julesz, B., The strength of color and luminance in eliciting motion perception, Investigative Ophthalmology and Visual Science, 30(3), p. 388 (1989).

[161] Gorea, A., Papathomas, T.V. and Julesz, B., Color against luminance in motion perception, European Conference of Visual Perception, September 1989; also in Perception, vol. 18, p. 536.

[162] Papathomas, T.V., Gorea, A., and Julesz, B., Color does resolve ambiguities in apparent motion perception, AT&T Bell Laboratories Technical Memorandum, 11223-890306-01TM (1989).

[163] Van Essen, D.C., DeYoe, E.A., Olavarria, J.F., Knierim, J.J., Fox, J.M., Sagi, D., and Julesz, B., Neural responses to static and moving texture patterns in visual cortex of the macaque monkey, in Neural Mechanisms of Visual Perception, Lam, D.M.K. and Gilbert, C.D. (eds.), Woodlands, TX: Portfolio Publishing, pp. 137-154 (1990).

[164] Julesz,B., Concepts in early vision, in International Symposium on Synergetics of Cognition, Vol. 45, Haken, H. and Stadler, M. (Eds). Schloss Elmau, Bavaria, Aug. 4-8, 1989 Springer, Berlin, pp. 218-232 (1990).

[165] Gorea, A. and Julesz, B., Context superiority in a detection task with line-element stimuli: a low-level effect, Perception 19, pp. 5-16, (1990).

[166] Papathomas, T.V., Gorea, A. and Julesz, B., Juxtaposition of orientation, luminance and polarity in perceptual grouping, Investigative Ophthalmology and Visual Science, 31, p. 105, 1990.

[167] Chang, J.J. and Julesz, B., Low-level processing of disparity-tuned binocular neurons takes precedence of shape from shading, Invest. Ophthalm. and Visual Sci. 31(4):525, 1990, Proc. of ARVO Meeting, May 1990. (published abstract)

[168] Julesz, B., Early vision is bottom-up, except for focal attention, in Cold Spring Harbor Symposia on Quantitative Biology - The Brain, Vol. 55, May 30-June 6, 1990, New York: Cold Spring Harbor Laboratory Press, pp. 973-978 (1990).

[169] Julesz, B., Consciousness and focal attention: Answer to John Searle, Behavioral and Brain Sciences, 16(1), pp. 191-193 (1993).

[170] Julesz, B., Early vision and focal attention, Reviews of Modern Physics, 63(3), July 1991, pp. 735-772, (1991).

[171] Julesz, B., Some strategic questions in visual perception, Proceedings of 13th European Conference on Visual Perception (ECVP), September 4-7, 1990, Paris, France in Representations of Vision: Trends and Tacit Assumptions in Vision Research, Gorea, A. (Ed.) Cambridge: Cambridge University Press, pp. 331-349, (1991).

[172] Williams, D., and Julesz B., Filters vs. textons in human and machine texture discrimination, in Neural Networks for Perception, Vol. 1 - Human and Machine Perception, Wechsler, H. (Ed.), Academic Press, Boston, pp. 145-175, (1991).

[173] Saarinen, J. and Julesz, B., The speed of attentional shifts in the visual field, Proceedings of the National Academy of Sciences USA, 88, pp. 1812-1814, (1991).

[174] Julesz, B., Early vision, focal attention, and neural nets, in Neural Networks: Theory and Applications, Mammone, R.J. and Zeevi, Y.Y., (eds.) Proceedings of CAIP Neural Network Workshop, Rutgers University, New Brunswick, NJ, Oct. 15-17, 1990, San Diego: Academic Press, pp. 209-216, (1991).

[175] Papathomas, T.V., Gorea, A. and Julesz, B., Two carriers for motion perception: color and luminance, Vision Research 31(11), pp. 1883-1892, (1991).

[176] Williams, D.W. and Julesz, B., Perceptual asymmetry in texture perception, Proceedings of the National Academy of Sciences USA, 89, pp. 6531-6534, (1992).

[177] Hadani, I., Ishai, G. and Julesz, B., The autokinetic movement and visual stability, Investigative Ophthalmology and Visual Science, 32(4), p. 900, Proc. of ARVO Meeting, April 1991. (published abstract)

[178] Williams, D. and Julesz, B., Fill-in between texture elements is critical for texture segregation, Investigative Ophthalmology and Visual Science, 32(4), p.1038, Proc. of ARVO Meeting, April 1991. (published abstract)

[179] Papathomas, T., Gorea, A., and Julesz, B., Link between textural grouping and visual search for the conjunction of color and orientation, Investigative Ophthalmology and Visual Science, 32(4), p.1039, Proc. of ARVO Meeting, April 1991. (published abstract)

[180] Prasad, K.V. and Julesz, B., Neural time-constants involved in compensating for the chromatic aberration of the human eye, Investigative Ophthalmology and Visual Science, 32(4), p.1273, Proc. of ARVO Meeting, April 1991. (published abstract)

[181] Hadani, I. and Julesz, B., Interpupillary distance and stereoscopic depth perception, Investigative Ophthalmology and Visual Science, 33(4), p. 707, Proc. of ARVO Meeting, May 1992. (published abstract)

[182] Julesz, B. and Kovacs, I., Stereopsis is not colorblind (except for green), Investigative Ophthalmology and Visual Science, 33(4), p. 1332, Proc. of ARVO Meeting, May 1992. (published abstract)

[183] Julesz, B., Some recent findings in early vision and focal attention, in Spatial Vision in Humans and Robots, Jenkin, M. and Harris, L. (eds.), proceedings of 1991 York Conference on Spatial Vision in Humans and Robots, June 19-22, 1991, York University, Toronto, Canada, p. 393-408, (1993).

[184] Kovacs, I. and Julesz, B., Depth, motion and static flow perception at metaisoluminant color contrast, Proceedings of the National Academy of Sciences USA, 89, pp. 10390-10394, (1992).

[185] Hadani, I. and Julesz, B., Perceptual constancy and the mind's eye looking through a telescope, (in progress).

[186] Braun, J. and Julesz, B., Early vision: Dichotomous or continuous?, Program, 33rd Annual Meeting of the Psychonomic Society, St. Louis, MO, November 13-15, 1992, p. 50 (1992) (published abstract).

[187] Julesz, B. Illusory contours in early vision and beyond, Giornale Italiano Di Psicologia (Italian Journal of Psychology), XX(5), pp. 869-877 (1993).

[188] Kovacs, I. and Julesz, B., A closed curve is much more than an incomplete one: Effect of closure in completion of segmented contours, Proceedings of the National Academy of Sciences USA, 90, pp. 7495-7497 (1993).

[189] Kovacs, I. and Julesz, B., A closed curve is much more than an incomplete one: Effect of closure in completion of segmented contours, Investigative Ophthalmology and Visual Science, 34(4), p. 1084, Proc. of ARVO Meeting, May 1993. (published abstract)

[190] Ramanujan, K.S., Papathomas, T.V., Gorea, A., and Julesz, B., Similarities between motion perception and texture grouping, Investigative Ophthalmology and Visual Science, 34(4), p. 1237, Proc. of ARVO Meeting, May 1993. (published abstract)

[191] Chang, J.J., Anderson, B.L., and Julesz, B., Panum's limiting case exhibits greatest stability and clearest depth when consistent with the geometry of occlusion, Investigative Ophthalmology and Visual Science, 34(4), p. 1438, Proc. of ARVO Meeting, May 1993. (published abstract)

[192] Julesz, B., Dialogues on Perception, Cambridge: Bradford/MIT Press, (1995).

[193] Kovacs, I. & Julesz, B., Closed contours facilitate the detection of interior targets, Perception, 22 supplement, p. 4, 1993, Proceedings of 16th European Conference on Visual Perception (ECVP), August 24-29, 1993, Edinburgh, Scotland (published abstract).

[194] Hadani, I. and Julesz, B., Computational aspects of motion perception during self-motion, Peer Commentary, Behavioral and Brain Sciences, 17(2), pp. 319-320, (1994).

[195] Julesz, B., Subjective contours in early vision and beyond, presented at Partitioning Data Sets: With Applications to Psychology, Vision and Target Tracking, DIMACS Workshop April 19-21, 1993, Rutgers University, Piscataway, NJ in Partitioning Data Sets - DIMACS Series in Discrete Mathematics and Theoretical Computer Science, Cox, I.J., Hansen, P. and Julesz, B. (eds.), Providence, RI: American Mathematical Society, pp. 359-371, (1995).

[196] Julesz, B. and Anderson, B.L., Motion hysteresis, cooperativity, and neurontrophy, Investigative Ophthalmology and Visual Science, 35(4), p. 1389, Proc. of ARVO meeting, May 1994, (published abstract).

[197] Anderson, B.L. and Julesz, B., Motion parallax and subjective occluding contours, Investigative Ophthalmology and Visual Science, 35(4), p. 2162, Proc. of ARVO meeting, May 1994, (published abstract).

[198] Kovacs, I. and Julesz, B., Maps of global sensitivity change inside closed boundaries, Investigative Ophthalmology and Visual Science, 35(4), p. 1627, Proc. of ARVO meeting, May 1994, (published abstract).

[199] Kovacs, I. and Julesz, B., Perceptual sensitivity maps within globally defined visual shapes, Nature, 370(6491), pp. 644-646 (1994).

[200] Papathomas, T.V., Kovacs, I., Gorea, A., and Julesz, B., A unified approach to the perception of motion, stereo, and static flow patterns, Behavior Research Methods, Instruments, and Computers, (1995 in press).

[201] Julesz, B., Some afterthoughts, in Early vision and beyond, Papathomas, T.V., Chubb, C., Gorea, A., and Kowler, E., (eds.), The Bradford MIT Press, pp. 249-257 (1995).

[202] Hadani, I., Kononov, A., and Julesz, B., Space-perception-in-navigation (SPIN) theory, Proceedings of the 17th European Conference on Visual Perception (ECVP), Eindhoven, The Netherlands, Sept. 4-8, 1994, Perception, 23 supplement, pp. 108-109, (published abstract).

[203] Julesz, B. and Kovacs, I., Introduction, in Maturational Windows and Adult Cortical Plasticity, Proceedings of the Santa Fe Institute Studies in the Sciences of Complexity conference held May 1993, Santa Fe, NM, Vol. XXIII, Reading, MA: Addison-Wesley Publishing Company, Julesz, B. and Kovacs, I. (Eds.), pp. xix-xxvi (1995).

[204] Kovacs, I. and Julesz, B., Long range spatial interactions of early vision revealed by psychophysically measured sensitivity maps, in Maturational Windows and Adult Cortical Plasticity, Proceedings of the Santa Fe Institute Studies in the Sciences of Complexity conference held May 1993, Santa Fe, NM, Vol. XXIII, Reading, MA: Addison-Wesley Publishing Company, Julesz, B. and Kovacs, I. (Eds.), pp. 127-136 (1995).

[205] Hung, G.K., Wilder, J., Curry, R., and Julesz, B., Simultaneous better than sequential for brief presentations, Journal of the Optical Society of America-A, 12(3), pp. 441-449 (1995).

[206] Kovacs, I. and Julesz, B., Psychophysical sensitivity maps indicate skeletal representation of visual shape, (abstract submitted to 18th European Conference on Visual Perception, 1995).

[207] Braun, J. and Julesz, B., Was William James right about passive, involuntary, and effortless attention?, (submitted to Cognitive Psychology).

[208] Anderson, B.L. and Julesz, B., A theoretical analysis of illusory contour formation in stereopsis, (submitted to Psychological Review, 1995).

[209] Kovacs, I., Feher, A., Fiser, J., Geier, J., and Julesz, B., Plasticity of stereoscopic depth discrimination in adults, Investigative Ophthalmology and Visual Science, 36(4), p. S15, Proc. of ARVO Meeting, May 1995. (published abstract)

[210] Hadani, I. and Julesz, B., Is the inter-ocular distance a factor in stereopsis?, Investigative Ophthalmology and Visual Science, 36(4), p. S369, Proc. of ARVO Meeting, May 1995. (published abstract)

Patents, Technical Memoranda

(unpublished as papers)

1. Economy in Television Transmission, USA Patent No. 2,974,195, March 7, 1961.

2. Some Recent Studies in Vision Relevant to Form Perception, Invited Paper delivered at the Symposium on Models for the Perception of Speech and Visual Form, Boston, MA, November 11-14, 1964, to be published. MM-65-1223-1, January 12 (1965).

3. Supplement to the Technical Memorandum: Interpolation Between Extremals of Television Signals, MM-57-134-50, December (1957).

4. IDENTRACKING - A Detection Procedure in Which the Identity of Outlined Moving Objects is Continuously Preserved, MM-58-134-18, July 1, 1958.

5. Automatic Reconstruction of 3-Dimensional Images From 2-Dimensional Projections. MM-58-134-32, October 15, 1958.

6. Automatic Depth Evaluation From Stereo Plane Projections, MM-59-123-7, January 30, 1959.

7. The PARCEPTRON: An Optical Voice Recognition Device (Co-authors C. Cutler and K. Pennington) MM-64-135-1, 1222-12, 2813-30, December 8, 1964.

8. Equidistributed Information Mapping, An Analogy to Holograms and Memory, (Co-author K.S. Pennington) to be published in J. Optical Soc. Am. 55, Mar. (1965).

PATENTS

B. Julesz, 2,974,195, Economy in TV Transmission, dated March 7, 1961.

C.C. Cutler, B. Julesz, K.S. Pennington, 3,543,237, Pattern Recognition Apparatus and Method, dated Nov. 24, 1970.

B. Julesz, B.T. Kerns, M.E. Terry, 4,023,911, Stereopsis Test Patterns for Adjustment of Stereomicroscopes in the Inspection of 3-D Objects, dated May 17, 1977.

B. Julesz, 4,032,237, Stereoscopic Technique for Detecting Defects in Periodic Structures, dated June 28, 1977.