Conference Proceedings Abstracts

97. Papathomas, T.V., Ash, J.T., Hughes, J., Keane, B.P., Zaidi, Q. (2011) “Face priors overcome shape-from-motion signals in the rotating hollow face illusion,” Vision Sciences Society Conference, Naples, FL.

96. Papathomas, T.V., Marks, M, Silverstein, S.M., Keane, B.P., Sinha, Pavlovic, P.V. (2010) “The role of pictorial cues in the hollow-face illusion - Binocular disparity versus motion parallax,” European Conference on Visual Perception, Lausanne, Switzerland, Perception 39 ECVP Abstract Supplement, 33. Thomas Papathomas1,2, Jordan Ash1, James Hughes1, Brian Keane3, Qasim Zaidi4

95. Chai, Y-C, Papathomas, T.V., Zhuang, X., (2010) “Dominance of sharp over blurred image features in interocular grouping during "patchwork" binocular rivalry” Vision Sciences Society Conference, Naples, FL.

94. Papathomas T. V., Kourtzi Z., Welchman A. E. (2009) “Buildings drawn in perspective on large billboards appear to rotate – An explanation,” European Conference on Visual Perception, Regensburg, Germany, Perception 38 ECVP Abstract Supplement, pp. 10-11.

93. Wagner, M. Ehrenstein, W. H., Papathomas T. V. & Spillmann, L  (2009) “Visual search in 2D and 2½-D surfaces: differential eye movement patterns and effects of writing direction,” European Conference on Visual Perception, Regensburg, Germany, Perception 38 ECVP Abstract Supplement, 32.

92. Chai, Y-C, Papathomas, T.V., Zhuang, X., Alais, D. (2009). “Binocular rivalry between a sharp image and a low-pass filtered version of itself: low-pass dominance increases with eccentricity,” Vision Sciences Society Conference, Naples, FL.

91. Zhuang, X., Papathomas, T.V., (2009). “Prior entry for featured-based attention: Are objects of the attended color perceived earlier?” Vision Sciences Society Conference, Naples, FL.

90. Jain, A., Papathomas, T.V., (2009). “Modulation of Auditory and Visual Motion Aftereffects by Selective Attention to Opposite-Moving Spectral Components: Psychophysics and Computational Models”, Vision Sciences Society Conference, Naples, FL.

89. Papathomas, T.V., Sherman, A., Jain. A (2008) “Perceiving 3-D objects: perspective versus convexity/concavity; stereo versus motion parallax,” European Conference on Visual Perception, Utrecht, the Netherlands, Perception 37 ECVP Abstract Supplement, 88.

88. Jain, A., Papathomas, T.V., Sally, S., (2008). “Endogenous selective attention to opposite-moving spectral components influences aftereffects in vision and audition”, Vision Sciences Society Conference, Naples, FL.

87. Zhuang, X., Papathomas, T.V., (2008). “Feature- and location-based attention in color/orientation conjunctive visual search”, Vision Sciences Society Conference, Naples, FL.

86. Papathomas, T.V., Sherman, A., Jain, A. (2008). “The role of perspective and angle polarity in perceiving 3D objects: Lessons from reverspectives”, Vision Sciences Society Conference, Naples, FL.

85. Sherman, A., Papathomas, T.V., Jain, A. (2008). “Illusory Depth and Motion in Reverspectives: The role of two major factors”, National Conferences on Undergraduate Research (NCUR), Salisbury University.

84. Wagner, M., Ehrenstein, W. H., Papathomas, T.V. (2007). “Competition between pictorial and physical depth cues: Vergence eye movements under reverspective conditions”, European Conference on Visual Perception, Arezzo, Italy, Proceedings in Perception, vol. 36, pp 32-33.

83. Papathomas, T. V., Jain, A., Sally, S., (2007). “Selective attention to multi-spectral visual and auditory stimuli biases motion aftereffects”, European Conference on Visual Perception, Arezzo, Italy, Proceedings in Perception, vol. 36, p. 132.

82. Zhuang, X., Su, X., Vidnyánszky, Z. Papathomas, T. V. (2007). “Learning effects on dual-task costs,” Vision Sciences Society Conference, Sarasota, FL.

81. Sally, S., Vidnyánszky, Z., Papathomas, T. V. (2007). “Feature-based attention: Effects of eccentricity,” Vision Sciences Society Conference, Sarasota, FL.

80. Jain, A., Sally, S., Papathomas, T. V. (2007). “Cross-modal auditory and visual interactions and aftereffects – A comprehensive study,” Vision Sciences Society Conference, Sarasota, FL.

79. Papathomas, T. V (2006) “Kinetic art: reverspectives, intaglios, and Termespheres--why do they 'move'?” European Conference on Visual Perception, St. Petersburg, Russia. Proceedings in Perception, vol. 35, p. 224-225.

78. Sohn, W., Chong, S. C., Papathomas,  T. V. Vidnyánszky, Z. (2006). “Cross-feature spread of global attentional modulation in human area MT+”. The fourth Asian Conference on Vision. Matsu, Japan.

77. Papathomas, T. V., Su, X., Jain, A. & Uzochukwu, H.  (2006) “The saliency of luminance and color (diagnostic and anti-diagnostic) in images,” Vision Sciences Society Conference.

76. Tseng, C-H., Papathomas T.V. & Vidnyánszky, Z. (2006) “Learning-induced sensitization for motion directions is modulated by attention,” Vision Sciences Society Conference.

75. Zhuang, X., Papathomas T.V. & Vidnyánszky, Z. (2006) “Position-invariant motion contrast effects are mediated by attention,” Vision Sciences Society Conference.

74. Papathomas, T. V., Su, X., Pappas, T. Hong, J. & Uzochukwu, H.  (2005) “The role of luminance and color in categorizing images,” European Conference on Visual Perception, La Coruna, Spain.

74. Tseng, C-H., Vidnyánszky, Z., Papathomas T.V. & Sperling, G. (2005) “Attention-based long-lasting sensitization and suppression of colors,” Vision Sciences Society Conference.

73. Hong, J. Papathomas, T. V., Vidnyánszky, Z. (2005) “Can attention to auditory signals affect processing of simultaneous visual stimuli?” Vision Sciences Society Conference.

72. Papathomas, T. V., Vidnyánszky, Z. & Zhuang, X. (2004) “From 2D to 3D and back: Perception of rotated 2D pictorial scenes depends on the 3D surfaces they depict,” Vision Sciences Society Conference.

71. Vidnyánszky, Z, Melcher, D., Sohn, W. & Papathomas, T.V., (2004) “Selection and binding of visual features outside of the focus of attention,” Vision Sciences Society Conference.

70. Hong, J., Papathomas, T.V., Kashi, R., Sohn, W. & Vidnyánszky, Z., (2004) “Auditory stimuli with ascending-/descending-amplitude can bias ambiguous approaching/retreating visual stimuli,” Vision Sciences Society Conference.

69. Sohn, W., Papathomas, T.V. & Vidnyánszky, Z, (2004) “Integration dynamics of non-opposite spatiotemporally co-occurring local directional signals,” Vision Sciences Society Conference.

68. Sohn, W., Vidnyanszky, Z., & Papathomas, T. V. (August 2003). The units of attentional selection in motion perception. Korean Psychological Association. Seoul, Korea.

67. Papathomas, T.V., Hong, J., Kashi, R. Sohn, W. & Dennis, J. (2003). “Can attention to one of two competing visual stimuli bias auditory aftereffects?” European Conference on Visual Perception, Paris, France.

66. Vidnyanszky, Z., Sohn, W., Kovács, G & Papathomas, T.V. (2003). “Global feature-based attentional effects provide evidence for visual binding outside the locus of attention,” European Conference on Visual Perception, Paris, France.

65. Blaser, E., Papathomas, T.V. & Vidnyanszky, Z. (2003). “Polarity-contingent motion aftereffects at the stage of local motion processing,” Vision Sciences Society Conference.

64. Sohn, W., Papathomas, T.V., Blaser, E. & Vidnyanszky, Z., (2003). “Object-based cross-attribute attentional effects in bivectorial motion,” Vision Sciences Society Conference.

63. Papathomas, T.V. “The half-moon illusion, sunray parallelism, and perspective,” European Conference on Visual Perception, Glasgow, Scotland, 2002.

62. Blaser, E., Vidnyanszky, Z., and Papathomas, T.V. “Relative motion, not polarity, breaks ‘surface tension’,” Vision Sciences Society Conference, p. 37, 2002.

61. Sohn, W., Blaser, E., Vidnyanszky, Z., and Papathomas, T.V. “Surface-based mechanisms of attentional facilitation and inhibition in motion perception,” Vision Sciences Society Conference , p. 33, 2002.

60. Papathomas, T.V and Bono, L. “Top-down influences in perceiving face and non-face stimuli,” Vision Sciences Society Conference, 2002.

59. Papathomas, T.V., “Cognitive factors in false depth and motion percepts during egomotion,” 24th European Conference on Visual Perception, Kusadasi, Turkey, 2001.

58. Blaser, E, Papathomas, T.V. and Vidnyanszky, Z. “Attention to moving surfaces,” 24th European Conference on Visual Perception, Kusadasi, Turkey, 2001.

57. Papathomas, T.V., “Do pictorial cues enhance illusory depth and motion in reverspectives?” Vision Sciences Society Conference,  2001.

56. Vidnyanszky, Z., Blaser, E. and Papathomas, T.V.,  “An explanation for unidirectional motion aftereffects following adaptation to bivectorial transparent motion,” Vision Sciences Society Conference, 2001.

55. Sohn, W., Vidnyanszky, Z., Blaser, E., and Papathomas, T.V. “Attention to one component of bivectorial transparent motion strongly inhibits the processing of the unattended component,” Vision Sciences Society Conference, p. 28, 2001.

54. Tjan, B. S. & Papathomas, T.V., “Global spatial layout affects local disparity judgment,”  Perception 29 (suppl) p. 88, 23rd European Conference on Visual Perception, Groningen, Netherlands, 2000.

53. Morikawa, K. & Papathomas, T.V., “Influences of motion and depth on lightness induction - an illusory transparency effect,” Perception 29 (suppl) p. 9, 23rd European Conference on Visual Perception, Groningen, Netherlands, 2000.

52. Papathomas, T.V., “False depth and motion in Hughes’s reverspectives: the role of pictorial cues,” Perception 29 (suppl) p. 112, 23rd European Conference on Visual Perception, Groningen, Netherlands, 2000.

51. Vidnyanszky, Z., Papathomas, T.V. & Julesz, B., “Effect of attention and processing time on lateral inhibition,” Investigative Ophthalmology and Visual Science,  vol. 41(4), 2000.

50. Papathomas, T.V. & Tjan, B., “Three-dimensional representation of disparity-defined modal and amodal illusory contours,” Investigative Ophthalmology and Visual Science,  vol. 41(4), 2000.

49. Kaur, M., Papathomas, T.V. & DeCarlo, D., "Schema- and data-driven influences in the hollow-face illusion: experiments and model," Investigative Ophthalmology and Visual Science,  vol. 41(4), 2000.

48. Papathomas, T.V. & DeCarlo, D., "Top-down and bottom-up processes in 3D face perception: Psychophysics and computational model," 22nd European Conference on Visual Perception, Trieste, Italy, 1999.

47. Papathomas, T.V., “Analogies between frequency in audition and spatial position in vision,” Investigative Ophthalmology and Visual Science,  vol. 40(4), p. S47, 1999.

46. Papathomas, T.V., “Monotonic percepts from periodic stimuli -yet another analogy between vision and audition,” 21st European Conference on Visual Perception, Oxford, England, 1998.

45. Gorea, A. and Papathomas, T.V., “Luminance, color and orientation: local vs. global contrasts in texture discrimination,” Investigative Ophthalmology and Visual Science,  vol. 39(4), p. S649, 1998.

44. Papathomas, T.V., Conway, T.E,  Cox,  I.J., Miller,  M.L., Minka, T.P. & Yianilos, P.N.

“Psychophysical evaluation for the performance of content-based image retrieval systems,” Investigative Ophthalmology and Visual Science,  vol. 39(4), p. S1096, 1998.

43.  Papathomas, T.V., Kovács, I., & Fehér, A., "Interocular grouping of visual attributes during binocular rivalry,"  20th European Conference on Visual Perception, Helsinki, Finland, 1997.

42. Papathomas, T.V., Szatmary, J.,  Fehér, A., & Kovács, I., "Interaction of attributes in interocular grouping during binocular rivalry," Investigative Ophthalmology and Visual Science,  vol. 38(4), p. S642, 1997.

41. Kovács, I., Papathomas, T.V., & Fehér, A., & "When the brain changes its mind: Interocular grouping during binocular rivalry," Investigative Ophthalmology and Visual Science, vol. 38(4), p. S487, 1997.

40. Fehér, A., Kovács, I. & Papathomas, T.V., "Contour continuity can drive interocular grouping during binocular rivalry," Investigative Ophthalmology and Visual Science, vol. 38(4), p. S642, 1997.

39. Papathomas, T.V., Gorea, A. & Chubb, C. "An efficient method for  assessing the sensitivities of first- and second-order motion mechanisms: Theory, experiments, applications," Annual Meeting of the McDonnell-Pew Program in Cognitive Neuroscience, 1996.

38. Kovács, I., Papathomas, T.V., & Fehér, A. "Interocular grouping in binocular rivalry: Color, shape, and natural images," Annual Meeting of the McDonnell-Pew Program in Cognitive Neuroscience, 1996.

37. Kovács, I., Papathomas, T.V., & Fehér, A. "When the brain changes its mind: Interocular grouping during binocular rivalry," Society  for Neuroscience Annual Meeting, 1996.

36. Papathomas, T.V., Gorea, A., & Fehér, A. "Attending to attributes in double-conjunction texture segregation: the role of color, luminance, and orientation," Investigative Ophthalmology and Visual Science, p. S528, 1996.

35. Yang, M., Papathomas, T.V., Kovács, I., & Julesz, B. "No fusion in reverse-color polarity stereograms: Symmetries in luminance and color contributions," Investigative Ophthalmology and Visual Science, p. S284, 1996.

34. Papathomas, T.V., Fehér, A. Julesz, B., & Zeevi, Y.Y. "Interactions of monocular and cyclopean forms  and the role of depth in the Ebbinghaus illusion." 18th European Conference on Visual Perception, Tubingen, Germany, August 1995; Perception, vol. 24 suppl, p. 31, 1995.

33. Ramanujan, K.S. & Papathomas, T.V. Grouping in sparse reverse-contrast static flow (Glass) patterns," Investigative Ophthalmology and Visual Science, p. S477, 1995.

32. Papathomas, T.V., Gorea, A. & Chubb, C. "Separate  1st-order and  2nd-order  motion systems  or  a  single  motion system?" Invest. Ophthalmology and Visual Science, p. S51, 1995.

31. Papathomas, T.V., Gorea, A., & Chubb, C. "One or multiple motion systems?" 17th European Conference on Visual Perception, Eindhoven, the Netherlands, Sept. 1994; also in Perception, vol. 23 suppl, p. 61, 1994.

30. Papathomas, T.V., Ramanujan, K.S. and Gorea, A. "Reverse grouping in texture: Fourier and non-Fourier mechanisms," Investigative Ophthalmology and Visual Science, 35, p. 1667, 1994.

29. Ramanujan, K.S., Papathomas, T.V. and Gorea, A. "Double opponency model for texture segregation," Investigative Ophthalmology and Visual Science, 35, p. 1667, 1994.

28. Gorea, A. and Papathomas, T.V., "'Slow' and 'fast' motion systems respectively infringe and respect the 'similarity principle' tested with color- and luminance-defined stimuli," Investigative Ophthalmology and Visual Science, 34, p. 1054, 1993.

27. Ramanujan, K.S., Papathomas, T.V., Gorea, A. & Julesz, B., "Similarities between motion perception and texture grouping," Invest. Ophthalmology and Visual Science, 34, p. 1237, 1993.

26. Papathomas, T.V.,  Kovács, I. and Huang, J. "Similarity vs. covariance in motion, depth and static flow (Glass) patterns," Investigative Ophthalmology and Visual Science, 34, p. 786, 1993.

25. Gorea, A., Kovács, I. and Papathomas, T.V., "Against a 'covariance metric' for motion perception: Chromatic and luminance information do not combine,"  Annual Meeting of the Optical Society of America, 1992.

24. Papathomas, T.V. & Gorea, A., "Texture segregation with 'double conjunctions' of attributes:  A quantitative approach," Investigative Ophthalmology and Visual Science, 33, p. 959, 1992.

23. Gorea, A. and Papathomas, T.V., "Double-opponency in multi-attribute texture discrimination," Investigative Ophthalmology and Visual Science, 33, p. 1356, 1992.

22. Gorea, A. and Papathomas, T.V., "A model for texture segregation with color, luminance and shape,"  Ophthalmic and Physiological Optics, vol. 12, p. 87, 1992.

21. Gorea, A. and Papathomas, T.V., "Generalized contrast operator for texture segregation," Annual Meeting of the Optical Society of America, Nov. 1991; also in OSA Technical Digest, Vol. 17, p. 135, 1991.

20. Kovács, I., Papathomas, T.V. and Julesz, B., "Interaction of color and luminance in stereo perception," Annual Meeting of the Optical Society of America, Nov. 1991; also in OSA Technical Digest, Vol. 17, p. 202, 1991.

19. Gorea, A. and Papathomas, T.V., "A computational model for texture segregation," presented at the 14th European Conference on Visual Perception, Vilnius, Lithuania,  1991.

18. Ramanujan, K.S., Nowakowski, R.S. and Papathomas, T.V., "From biological objects to biological structure:  A method for generating an average shape," 2nd International Conference on Industrial and Applied Mathematics, 1991, p. 173.

17. Papathomas, T.V., 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, p. 1039, 1991.

16. Gorea, A., Papathomas, T.V. and Julesz, B., "Stimuli for studying multi-attribute texture formation," presented at the 13th European Conference on Visual Perception, Paris, Sept. 1990; also in Perception, Vol. 19, No. 4, p. 336.

15. Papathomas, T.V. and Oliveri, R., "Einstein's face/latent square," Computer Graphics, vol. 24, 1990, p. 22.

14. Papathomas, T.V., Gorea, A. & Julesz, B., "Juxtaposition of orientation, luminance and polarity in perceptual grouping," Investigative Ophthalmology and Visual Science, vol. 31, p. 105, 1990.

13. Gorea, A., Lorenceau, J., Bagot, J.D. and Papathomas, T.V., "Color-based motion perception may be stronger under equiluminant than under non-equiluminant conditions," Investigative Ophthalmology and Visual Science, vol. 31, p. 518, 1990.

12. Gorea, A. and Papathomas, T.V., "The role of color and orientation matching in texture discrimination," Annual Meeting of the Optical Society of America, October 1989; also in OSA Techn. Digest Series, vol. 18, p. 161, 1989.

11. 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.

10. Papathomas, T.V., Gorea, A. & Julesz, B., "The strength of color and luminance in eliciting motion perception," Investigative Ophthalmology and Visual Science, vol. 30, no. 3, p. 388, 1989.

9. Papathomas, T.V. and Gorea, A., "A class of stimuli for studying correspondence in apparent motion," Ann. Meeting of the Optical Soc. of America, 1988.

8. Gorea, A., and Papathomas, T.V., "A basic asymmetry in motion perception," European Conf. on Visual Perception, Sept. 1988; also in Perception, vol. 17, A10.

7. Julesz, B. & Papathomas, T.V., "Asymmetries in binocular motion perception from disparity and rivalry differences," Investigat. Ophthalmology and Visual Sci., vol. 29, no. 3,  266, 1988.

6. Gorea, A. and Papathomas, T.V., "The concept of 'veto'-attributes in motion perception," Investigative Ophthalmology and Visual Sci., vol. 29, no. 3,  265, 1988.

5. Papathomas, T.V., Gorea, A., Julesz, B. & Chang, J.J., "The relative strength of depth and orientation in motion perception," Investigat. Ophth. and Visual Sci., vol. 29, no. 3,  401, 1988.

4. Papathomas, T.V. and Julesz, B., "A spatio-temporal stereo paradox," Supplement to Investigative Ophthalmology & Visual Science, vol. 28, no. 3,  294, 1987.

3. Papathomas, T.V. and Weil, G., "Display of multivariable, multidimensional data via stereo animation and texture segregation," Proc. 17th European Meeting of Statisticians,  180, 1987.

2. Gorea, A. and Papathomas, T.V., "Motion in color-nonoriented and luminance-oriented channels," Journal of the Optical Soc. of America, vol. 4, no. 13,  51, 1987.

1. Julesz, B. and Papathomas, T.V., "Independent movement channels in stereopsis," Investigative Ophthalmology and Visual Science, vol. 26, no. 3,  242, 1985.

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