CURRICULUM VITAE: LLOYD KAUFMAN  

 ADDRESS:       			    TELEPHONE: 

  Department of Psychology	   	  (516) 299-2736
  C.W. Post Campus, LIU
  720 Northern Boulevard
  Brookville, NY 11548-1300

 E-Mail:  lkaufma@optonline.net

 PROFESSIONAL PREPARATION:

	B.A.   Psychology,  San Diego State University, 1950
	M.A.   Psychology,  New School University, 1957
	Ph.D.  Psychology,  New School University, 1961

 HONORS: 

New York State War Service Scholarship (WWII), 1954.

Faculty—Alumni Award for Best PhD. Dissertation, 1960.

Fellow, American Psychological Society

Fellow, Society of Experimental Psychologists

Fellow, American Association for Advancement of Science

Doctor of Science honoris causa, Long Island Univ. 1990.

Doctor of Science honoris causa, State Univ. of NY. 1993.

PROFESSIONAL ASSOCIATIONS:

American Psychological Society.

American Association for the Advancement of Science.

Sigma XI Scientific Research Society

Former member IEEE

Former member Optical Society of America

PROFESSIONAL EXPERIENCE:

Senior Scientist, Long Island University, C.W.Post Campus. Brookville, NY. (1995 - present).

Professor Emeritus of Psychology, Faculty of Arts and Science, New York University, New York, N.Y. 
(1995 - present)

Adjunct Professor of Physiology and Biophysics, School of Medicine, New York University, New York, 
N.Y. (1984-94)

Professor of Psychology & Neural Science, Faculty of Arts and Science, New York University, New 
York, N.Y. (1969-94)

Visiting Associate Professor, Faculty of Arts and Science, New York University, New York, N.Y. (1967-
69)

Associate Professor of Psychology, Yeshiva University, New York,
N.Y. (1967-69)

Research Staff Member, Sperry Rand Research Center, Sudbury, MA. (1962-67)

Lecturer in Psychology, Graduate School of Education, Yeshiva University, New York, N.Y. (1958; 
1961-62)

Flight Test Engineer to Section Head for Human Factors, Flight Research Department, Sperry Gyroscope 
Company, Division of Sperry Rand, Great Neck, N.Y. (1957-62)

Design Engineer, Ford Instrument Company, Division of Sperry Rand, Long Island City, N.Y. (1952-57)


CONFERENCES ORGANIZED:

Co-Director of NATO Advanced Science Institute on “Biomagnetism: an Interdisciplinary Approach”,
September 1—12, 1982, Grottaferrata, Italy.

Co-Chairman, International Conf. on Biomagnetism, August 14—18, 1989, New York.

COMMITTEES:

Member, Vision Committee of the National Research Council (NRC) (2 terms).

Working Group 89 (Tinnitus), NRC.

Working Group on Advanced Technology in Cognitive Neuroscience, NRC.

Member, Briefing Panel on Imaging Biological Function, Institute of Medicine, National Academy of 
Science, 1991—92.

Member, Research Advisory Board, New York Association for the Blind (Lighthouse), 1990 – 1994.

Member, Board of Directors, New York Association for the Blind (Lighthouse) 1995 – 1996.

Member, Board of Directors, Project Literacy/Outreach  1996 – present.

BOOKS:
 
1. Sight and Mind, L. Kaufman, Oxford Univ. Press, New York, 1974, 580 pages.

2. Perception: The World Transformed, L. Kaufman, Oxford Univ. Press, New York, 1979, 416 pages.

EDITED BOOKS:

1. Biomagnetism: An Interdisciplinary Approach, S.J.Williamson, G.L. Romani, L. Kaufman, & I. 
Modena (Eds.) NATO Advanced Study Institute Series, Plenum Press, New York, 1983, 706 pages.

2. Handbook of Perception and Human Performance: Vol. I Sensory Processes and Perception, K. Boff, 
L. Kaufman, & J. Thomas, (Eds.) Wiley, New York, 1986.

3. Handbook of Perception and Human Performance: Vol. II Information Processing and Performance, 
K. Boff, L. Kaufman, & J. Thomas, (Eds.) Wiley, New York, 1986.

4. Magnetic Source Imaging of the Human Brain. Z. L. Lu & L. Kaufman (Eds.) In preparation. 
Anticipate publication in 2002.

PATENTS:
1. Navigation Instrument for Dirigible Craft. Inventors: L. Kaufman, R.R. Strock. U.S. Patent Number 
3,128,464.

2. Apparatus for process for making biomagnetic measurements. Inventors: D.B. Crum, R.C. Wesley, 
R.E. Greenblatt, R.M. Toussaint, E.C. Hirschkoff, L. Kaufman, S.J. Williamson. U.S. Patent Number: 
4,793,355, Date: December 27, 1988.

CURENT RESEACH INTERESTS

Size and distance perception; the moon illusion; stereopsis;  magnetic source imaging.

PUBLICATIONS:

1. The Moon Illusion I, L. Kaufman & I. Rock, Science, 1962, 136, 953-61.

2. The Moon Illusion II, I. Rock & L. Kaufman, Science, 1962, 136,
1023-1031.

3. The Moon Illusion. L. Kaufman & I. Rock, Scientific American, July, 1962, 120-31.

4. A reply to Wallach and Boring, I. Rock & L. Kaufman, Science, 1962, 3533, 906.

5. On the spread of suppression and binocular rivalry. L. Kaufman, Vis. Res,, 1963, 3, 401—15.

6. Suppression and fusion in viewing complex stereograms. L. Kaufman,  Amer. I. Psychol.,
1964a, 77, 193—205.

7. On the nature of binocular disparity. L. Kaufman, Amer. J. Psychol., 1964b, 77, 398—401.

8. Research in visual perception for carrier landing: Suppl. 2 Studies on the perception of impact point 
based on shadowgraph techniques.(Report SDG-5265-0031) L. Kaufman, Great Neck, NY: Sperry Rand 
Corp., 1964.

9.  Some new steroscopic phenomena and their implications for theories of  stereopsis. L. Kaufman, 
Amer. I. Psychol., 1965, 78, 1—20.
  
10. Further observations on the nature of effective binocular disparites. L. Kaufman & C. B Pitblado, 
Amer. I.Psychol., 1965, 78, 379—91.

11. Some New Stereoscopic Phenomena and their Implications for Models of Stereopsis, L. Kaufman. In: 
W.W.  Dunn (Ed.) Models for the Perception of Speech and Form, Wiley, New York, 1966.

13. The detection of cortical spike activity at the human scalp. L. Kaufman & R. Price, IEEE Trans. Bio-
Med. Eng. 1967, BME-14: 84-90.

14. Stereopsis with opposite contrast contours. L. Kaufman & C.B. Pitblado, Percept. & Psychophys., 
1969, 6, 10—12.

15. Spontaneous fixation tendencies for visual forms. L. Kaufman,  & W. Richards, Perception & 
Psychophysics, 1969, 5, 85-88.

16. Center-of-gravity tendencies for visual forms. L. Kaufman & W. Richards, Percept. &      
Psychophys., 1969, 5, 85—88.
 
17. High-Frequency Visual Evoked Responses: A Product of  Neuronal Spiking, J. A. Michael and L. 
Kaufman, Brain Research, 1969, 15, 255-258.

18. Sensory modulation of the EEG. L. Kaufman & J. Locker, Proc. 78th Annual Conv. Amer. Psychol. 
Assoc., 1970, 179—80.

19. The complementarity of apparent and real motion. L. Kaufman, I. Cyrulnick, J. Kaplowitz,,  
C.Melnick,  & D.Stof, Psychol. Forsch., 1971, 34, 343—48.

20. Stereopsis without image segregation. L. Kaufman, J. Bacon, & F. Barroso,  Vis. Res., 1973, 13, 
137—47.

21. Visually evoked magnetic fields of the human brain, D. Brenner, S.J. Williamson, & L. Kaufman, 
Science, 1975, 190, 480 – 482.

22. SQUID System for Detecting Evoked Magnetic Fields of the Human Brain, D. Brenner, S.J. 
Williamson, & L. Kaufman, Low-Temperature Physics - LT 14, M. Krusius & M. Vuvrio (Eds.), North 
Holland, Amsterdam, 1975, 4, 266 – 269.

23. The fusion illusion. L. Kaufman & A. Arditi, Vis. Res. 1976, 16, 535-543.

24. Confusion prevails! A reply to Kertesz  and Sullivan. L. Kaufman & A. Arditi, Vis. Res. 1976

25. On stereopsis with double images. L. Kaufman, Psychologia, 1976, 19, 224-233.

26. Applications of a SQUID for Monitoring Magnetic Response of the Human Brain. D. Brenner, L. 
Kaufman, and S.J. Williamson, IEEE Trans. Magnetics, MAG-13, 1977, 365.

27. Fixation and the Stereokinetic Phenomenon, E.S. Tauber, & L. Kaufman, Perception & 
Psychophysics, 1977, 22, 241 – 244.

28. Magnetic Fields of the Human Brain, S.J. Williamson & L. Kaufman, Naval Research Review,1977,
30, 1.

29. Application of a SQUID for monitoring magnetic response of the human brain. D. Brenner, L. 
Kaufman, & S.J. Williamson, IEEE Trans. On  Magnetics MAG-13, 1977, 365-368.

30. Biomagnetism. S.J. Williamson, D. Brenner, & L. Kaufman. In B. B. Schwartz & S. Foner (Eds.) 
Superconductor Applications: SQUIDs and Machines. Plenum, NY. 1977, 355-402.

31. Magnetic fields of the human brain. S.J. Williamson, L. Kaufman, & D. Brenner, Naval Research 
Review, 1977, 30, 1-18.

32. Applications of SQUID Detectors in Biomagnetism, S. J. Williamson & L. Kaufman. In J.E. 
Zimmerman & T.M. Flynn (Eds.), Applications of Closed Cycle Cryocoolers to Small
Superconductors.Natl. Bur. Standards Spec. Pub. 1978, 508, 177.

33. Somatically Evoked Fields of the Human Brain, D. Brenner, J. Lipton, L. Kaufman, & S.J. 
Williamson, Science, 1978, 199, 81.
	
34. Singleness of Vision and the Initial Appearance of Binocular Disparity, A. Arditi and L. Kaufman, 
Vision Research, 1978, 18, 117.

35. Biomedical Applications of SQUIDs. S.J. Williamson, D. Brenner, & L. Kaufman, in B.S. Deaver Jr., 
C.M. Falco, & S.A. Wolf (Eds.), Future Trends in Superconductive Electronics, Amer. Inst. Physics 
Conf. Proc., 1978, 44, 106.

36. Biomagnetism and Vision, L. Kaufman and S.J. Williamson, Investigative Ophthalmology, 1978, 
18—11, 1101.

37. Contrast Mechanisms, L. Kaufman, in B. Wolman (Ed.) Internatl. Encyclop. Psychol., 
Psychiatry, Neurol. And Psychoanalysis, 1978.

38. Binocular Vision, L.Kaufman, Ibid.

39. Depth Perception, L. Kaufman, Ibid.

40. Variation With Spatial Frequency in the Latency of the Neuromagnetic Response of the Human 
Cortex, S.J. Williamson. L.Kaufman, & D. Brenner, Vision Research, 1978, 18, 107.


41. Biomedical applications of SQUIDs. S.J. Williamson, L. Kaufman, & D. Brenner. In B.S. Deaver Jr., 
C.M. Falco, J.H. Harris & S.A. Wolf (Eds.) Future Trends in Superconductive Electronics, American 
Institute of Physics Conference Proceedings. 1978, 44, 106-116.

42. Evoked cortical magnetic fields. Williamson, S.J. and Kaufman, L. In: S.N. Erne’, H.D. Hahlbohm 
and H. Lubbig (Eds.), Biomagnetism. Walter de Gruyter, Berlin, 1981: 353—402.


43. Variation with spatial frequency in the latency of the neuromagnetic response of the human visual 
cortex. S.J. Williamson, L. Kaufman, & D. Brenner, Vis. Res. 1978, 18, 107-110.

44. Somatically evoked magnetic fields of the human brain. D. Brenner, J. Lipton, L. Kaufman, & S.J. 
Williamson, Science, 1978, 199, 81-83.

45. Applications of SQUID detectors in biomagnetism. S.J. Williamson & L. Kaufman, In J.E. 
Zimmerman & T.M. Flynn (Eds.) Applications of closed cycle cryocoolers to small superconducting 
devices. National Bureau of Standards Publication 508, 1978, 177-204.

46. Evoked Neuromagnetic Fields of the Human Brain, S.J. Williamson, L. Kaufman, & D. Brenner, 
J. Appl. Physics ,1979, 50-3, 2418.

47. Depth perception relative to convergence distance. L. Kaufman & B. Lane, Investigative 
Ophthalmology and Visual Science, 1979, 18 (Suppl), 174.

48. Le Champ Magnetique du Cerveau Human (Le Nouveau Magnetisme Animal) S.J. Williamson & 
L.Kaufman, La Recherche, 1980, 11, 722.

49. The Evoked Magnetic Field of the Human Brain, L. Kaufman & S.J. Williamson, In F. L. Denmark
(Ed.)Psychology: The Leading Edge, Annals N.Y. Acad. Sci. 1980, 30, 45.

50. Magnetic Fields of the Human Brain, S.J. Williamson & L. Kaufman, J. Magnetism and Magnetic 
Materials, 1980, 15-18, 1548.

51. A Simple Explanation of the Induced Size Effect, A.Arditi, L. Kaufman, & J.A. Movshon, Vision 
Research, 1981, 21, 755.

52. Attribution of Psychological Characteristics from Masked and Unmasked Speech, J. Welkowitz, 
L. Kaufman, & S. Sadd, Commun. Disorders, 1981, 14, 387.


53. Magnetic Fields of the Cerebral Cortex, S.J. Williamson and L. Kaufman, In S.N. Erne’, H.D. 
Halbohm, & H.Lubbig (Eds.) Biomagnetism, Walter de Gruyter, Berlin, 1981, 353.

54. Applications of a SQUID to Measurement of Somatically Evoked Fields: Transient Response to 
Electrical Stimulation of the Median Nerve, Y. Okada, L. Kaufman, D. Brenner, & S.J. Williamson Ibid. 
444.

55. Evoked Magnetic Fields Reveal Different Areas in Human Cortex. D. Brenner, Y. Okada, E. Maclin, 
S.J. Williamson, & L. Kaufman, Ibid. 432.

56. Susceptometer for in vivo Measurement of Iron Stored in Human Tissue, C.M. Bastuscheck, D. 
Brenner, S.J. Williamson, and L. Kaufman, Ibid. 520.

57. Biomagnetism, S.J. Williamson & L. Kaufman, J. Magnetism and Magnetic Materials, 1981, 22, 129.

58. On the relation between somatic evoked potentials and fields, L. Kaufman, Y. Okada, D. Brenner, & 
S.J. Williamson, Int. J. Neuroscience, 1982, 17, 33.
 
59. Tonotopic organization of the human auditory cortex. G.L. Romani, S.J. Williamson, & L. Kaufman, 
Science, 1982, 216, 1339-1340.  

60. Magnetic field of the human sensorimotor cortex. Y.C. Okada, S.J. Williamson, & L. Kaufman, 
Interntl. J. Neuroscience, 1982, 17, 33-38.

61. Modulation transfer function of human visual system revealed by magnetic field measurements. Y.C. 
Okada, L. Kaufman, D. Brenner, & S.J. Williamson, Vis. Res. 1982, 22, 319-333.

62. Characterization of the human auditory cortex by the neuromagnetic method. G.L. Romani, S.J. 
Williamson, L. Kaufman, & D. Brenner, Exp. Brain Research. 1982, 47, 381-393.

63. Magnetic location of cortical activity. L. Kaufman & S.J. Williamson, In I. Bodis-Wollner (Ed.) 
Evoked Potentials. Annals NY Acad. Sciences, 1982, 388, 197-213.

64. Biomagnetic instrumentation. G.L. Romani, S.J. Williamson, & L. Kaufman, Rev. Sci. Instrum. 1982, 
53, 1815-1845.

65. The Induced Effect: A Reply to Mayhew and Frisby. A.Arditi, L. Kaufman, & J.A. Movshon, Vision 
Research, 1983, 23, 665.

66. The Hippocampal Formation as a Source of the Slow Endogenous Potentials, Y.C. Okada, L. 
Kaufman, and S.J. Williamson, Electroenceph. din. Neurophysiol. 1983, 55, 417.

67. Comments on a Commentary: A Reply to Stowell, L. Kaufman, Y.C. Okada, D. Brenner, and S.J. 
Williamson, Int. J. Neuroscience, 1983, 18, 83.

68. Perception and Event Related Fields and Potentials, L. Kaufman. In S.J. Williamson, G.L. Romani, L. 
Kaufman, and I. Modena (Eds.), Biomagnetisln: An Interdisciplinary Approach:
Plenum Press, N.Y., 1983, 385.

69. Retinotopic Map on the Visual Cortex for Eccentrically Placed Patterns: First Non-Invasive 
Measurement, E.Maclin, Y. Okada, L. Kaufman, and S.J. Williamson, Il Nuovo Cimento
2D, 1983, 410.

70. Somatotopic Organization of the Human Somatosensory  Cortex Revealed by Neuromagnetic 
Measurements, Y.C. Okada, R. Tannenbaum, S.J. Williamson, & L. Kaufman, Exp. Brain
Research, 1984, 56, 197.

71. Evoked Neuromagnetic Fields, L. Kaufman, Y.C. Okada, J. Tripp, & H. Weinberg, In R. Karrer, J. 
Cohen, & P.Tueting (Eds.), Brain and Information: Event Related Potentials. Annals NY Acad. Science, 
1984, 425, 722.

72. Different Sources of Transient and Steady State Responses Revealed by Neuromagnetic Fields, M. 
Pellizone, S.J. Williamson, L. Kaufman, & K. Schafer, Annals of New York Academy of Science, 1985, 
435, 570.

73. Five Channel SQUID Installation for Unshielded Neuromagnetic Measurements, S.J. Williamson, M. 
Pellizone, Y. Okada, L. Kaufman, D. Crum, & J.R. Marsden, In H. Weinberg, G. Stroink, & T. Katila, 
(Eds.), Biomagnetism: Applications and Theory, Pergamon Press, N.Y., 1985, 46.

74. Frontiers of the New Science of Biomagnetism, S.J. Williamson & L. Kaufman, Ibid. 471.

75. Motion in depth and visual acceleration. M.D. Regan, L. Kaufman, & J. Lincoln, In K. Boff, L. 
Kaufman, & J. Thomas, (Eds.) Handbook of Perception and Human Performance: Vol. I  Sensory 
Processes and Perception, Wiley, New York, 1986, 19-1 – 19-46.

76. Analysis of neuromagnetic signals. S.J. Williamson, & L.Kaufman,  In: A.S. Gevins and A. Remond 
(Eds.), Handbook of Electroencephalography and Clinical Neurophysiology. Vol. 1. Methods of Analysis 
of Brain Electrical and Magnetic Signals. Elsevier, Amsterdam, 1987: 405- 444.


77. Recent developments in neuromagnetism: Implications for imaging. L. Kaufman & S.J. Williamson, 
In G. Pfurtscheller & F. H. Lopez da Silva (Eds.) Functional Brain Imaging. Hans Huber Publishers, 
Toronto, 1988, 11 – 29.

78. Magnetic localization of neuronal activity in the human brain. T. Yamamoto, S.J. Williamson, L. 
Kaufman, C. Nicholson, & R. Llinas, Proc. Natl. Acad. Sci. (USA), 1988, 85, 8732-8736.


79. Visually Evoked Responses from Non-Occipital Areas of Human Cortex, O.V. Lounasmaa, S.J. 
Williamson, L. Kaufman,  & S. Ueno (Eds.) Biomagnetism ‘87, Tokyo Denki Univ. Press, Tokyo, 1988, 
138.

80. Methods and Instrumentation for Biomagnetism, S.J. Williamson, S. Robinson, and L. Kaufman, Ibid. 
18.

81. Theory of Neuroelectric and Neuromagnetic Fields, S.J. Williamson & L. Kaufman, In F. Grandori, 
M. Hoke, & G.L. Romani (Eds.),Advances in Audiology, Vol. 6: Auditory Electric and Magnetic Fields, 
Basel, Karger, 1989, 1-39.

82. Responses to steady state auditory stimulation. L. Kaufman & S.J. Williamson. In F. Grandori, M. 
Hoke, & G.L. Romani, Eds. Advances in Audiology, Vol. 6: Auditory Electric and Magnetic Fields. 
Karger, Basel, 1990, 283-312.

83.Visualizing and Rhyming Cause Differences in Alpha Suppression, L. Kaufman, M. Glanzer, 
Y.M. Cycowicz, and S.J. Williamson. In S.J. Williamson, M. Hoke, G. Stroink, and M.
Kotani (Eds.), Advances in Biomagnetism, N.Y. Plenum Press, 1989, 241 - 244.

84. Brain Activity Related to Spatial Visual Attention, B. Luber, L. Kaufman, & S.J. Williamson, Ibid. 
213-216.

85. Alpha Activity Related to a Cognitive Task, B.J. Schwartz, C. Salustri, L. Kaufman, & S.J. 
Williamson, Ibid. 237—240.

86. Neuromagnetic Measurement of Visual Responses to Chromaticity and Luminance, J. 
Krauskopf, G. Klemic, O.V. Lounasmaa, D. Travis, L. Kaufman, & S.J. Williamson, Ibid.
209—212.

87. The Moon Illusion Thirty Years Later. L. Kaufman & I. Rock, In M. Hershenson (Ed.) The Moon 
Illusion, Hillsdale, N.J., L. Erlbaum Assoc. 1989, 193-234.

88. Brain activity related to spatial visual attention. B. Luber, L. Kaufman, & S. J. Williamson. In S. J. 
Williamson, M. Hoke, G. Stroink, & M. Kotani (Eds.) Advances in Biomagnetism. Plenum Press, NY, 
1989. 213-216.

89. Neuromagnetic measurement of visual responses to chromaticity and luminance. J. Krauskopf, G. 
Klemic, O.V. Lounassmaa, D. Travis, L. Kaufman, & S.J. Williamson. Ibid. 1989, 209-212.

90. Advances in neuromagnetic instrumentation and studies of spontaneous brain activity. S. J. 
Williamson & L. Kaufman. Brain Topography 1989, 2, 129-139.

91. Neuromagnetic Localization of Neuronal Activity in Visual and Extra-Visual Cortex, L. Kaufman & 
S.J. Williamson. In B. Cohen(Ed.), Vision and the Brain: The Organization of the Central Visual System, 
Vol. 67, N.Y. Raven Press, 1990.

92. Local Inhibition of Spontaneous Brain Activity During Mental Imagery, L.Kaufman, B.S. Schwartz, 
C. Salustri, & S.J. Williamson, J. Cognitive Neuroscience, 1990, 2, 124-132.


93. Seeing neuromagnetically. S.J. Williamson & L. Kaufman, Arkhimedes 1990, 42, 211-227 (Finland)

94. Evolution of neuromagnetic topographic mapping. S.J. Williamson & L. Kaufman. Brain 
Topography, 1990, 3, 113-127.

95. Neuromagnetic studies of sensory function and mental imagery. L. Kaufman & S.J. Williamson. EEG 
Clin. Neurophysiol. Suppl. 42. 1991.

96. Advantages and limitations of magnetic source imaging. S.J. Williamson, Z.L. Lu, & L. Kaufman. 
Brain Topography, 1991, 4, 169-180.

97. On cortical folds and neuromagnetic fields. L. Kaufman, J.H. Kaufman, J.Z. Wang, EEG Clin. 
Neurophysiol. 1991, 79, 211-226.

98. Imaging Regional Changes in the Spontaneous Activity of the Brain:An Extension of the Unique 
Minimum-Norm Least-Squares Estimate, J.-Z.Wang, L. Kaufman, & S.J. Williamson. Electroenceph. 
clin Neurophysiol. 1993, 86,36-50.

99. Minimum—Norm Least-Squares Estimation: Unique Magnetic Source Images for a Spherical Head, 
J.-Z. Wang, S.J. Williamson, and L. Kaufman, IEEE Trans.. Biomed. Eng. 1993.

100. Duration of EEG and MEG Alpha Suppression Increases with Angle in a Mental Rotation Task, C. 
Michel, L. Kaufman, and S.J. Williamson, J. Cognitive Neuroscience, 1993, 6.2, 139 - 150.

101. Kinetic Images of Neuronal Activity of the Human Brain Based on the MNLS Inverse, IEEE Trans. 
Biomed. Eng. J.-Z. Wang, S.J. Williamson, and L. Kaufman, 1994.

102. Explaining the Moon Illusion. L. Kaufman & J.H. Kaufman. Proc. Nat’l Acad. Sci., 2000, (97) 500-
505.  http://www.pnas.org/cgi/reprint/97/1/500.pdf

103. Basics of Neuromagnetism and Magnetic Source Imaging. L. Kaufman and Z-L. Lu.  In Z.L. Lu & 
L. Kaufman (Eds.)  Magnetic Source Imaging of the Human Brain. In preparation.

104. Magnetic source imaging: Search for inverse solutions. J. Z. Wang & L. Kaufman, In Z.L. Lu & L. 
Kaufman (Eds.)  Magnetic Source Imaging of the Human Brain. In preparation.

105. Illusion in reality: Visual Perception in displays, L. Kaufman & J.H. Kaufman, Human Vision and 
Electronic Imaging VI, Proceedings of SPIE, 2001, 19, 4299.

BOOK REVIEWS

Visual Perception, by J. Hochberg Amer. J. Psychol.

The Senses Considered as Perceptual Systems, by J.J. Gibson, Science.

Cyclopean Perception by B. Julesz, Science

Visual Perception, by T.N. Cornsweet, Amer. J. Psychol.

Principles of Perception, by S.J. Bartley, Amer. J. Psychol.

Visual Perception of Form, by L. Zusne, Amer. J. Psychol.

Visual Pattern Recognition, by P.C. Dodwell, Amer. J. Psychol.

Psychophysical Analysis of Visual Space, by J.C. Baird, Amer.J.Psychol.

Attention and Evoked Potentials, by R. Naatanen, Amer. J. Psychol.
Perception and the Orientation Reflex, by Y. Sokolov,’ Amer. Scientist.

SOME INVITED TALKS:

Speaker at Presidential Symposium on Functional Brain Imaging, What MEG Can Tell Us, Annual 
Meeting of the American Psychological Society, Chicago, August, 1993.

Keynote Address: Implications of MEG for Cognitive Neuroscience, International Conference on 
Biomagnetism, Vienna, Austria, August, 1993.

Cognition and Local Changes in Brain Oscillations. Symposium on Oscillatory Event Related Brain 
Dynamics, Tecklenburgh, Germany, September, 1993.

Magnetic Source Imaging and Cognition,Tokyo University, October, 1993.

Cognition and the Spontaneous Activity of the Brain, National Institute for Physiological Sciences, 
Okazaki, Japan, October, 1993.

Watching the Brain at Work, College of Optometry, State University of New York, November, 1993.

The Moon Illusion, Colloquium at York University, Toronto, May, 2000

Illusion in reality: Visual Perception in displays, L. Kaufman & J.H. Kaufman, Electronic Imaging VI, 
SPIE, San Jose, CA.,  2001.