Conferences - 1970 to 1990

+students and postdocs of Campbell

+Bedard, D.E., Campbell, M.C.W. and Chou, B.R. (1989). Computer calculation of cardinal points of optical systems. Optometry and Vision Science, 66, pg. 83P, Annual Meeting, American Academy of Optometry, New Orleans, December, 1989.

Campbell, M.C.W. (1989). How the pupil and crystalline lens influence visual performance. In the "Optical Limits to Visual Performance" at the American Academy of Optometry Annual Meeting, New Orleans, December, 1989, Invited presentation.

Campbell, M.C.W., +Harrison, E.M. and +Simonet, P. (1989). Psychophysical measurement of blur on the retina due to optical aberrations of the eye. Invest. Ophthal. Visual Science, 30 (suppl.), pg. 52, Sarasota, May, 1989, sponsored by the Association for Research in Vision and Ophthalmology.

+Simonet, P. and Campbell, M.C.W. (1989). Relationship between transverse chromatic aberration and chromostereopsis at two levels of illuminance. Optometry and Vision Science, 66, pg. 219P, Annual Meeting, American Academy of Optometry, New Orleans, December, 1989.

+Wilson, M.A., Campbell, M.C.W. and +Simonet, P. (1989). Change of pupil centration with change of pupil size. Optometry and Vision Science, 66, pg. 219P, Annual Meeting, American Academy of Optometry, New Orleans, December, 1989.

Campbell, M.C.W. (1988). Ophthalmic image processing and C.C.D. cameras for image processing. In the "Image Processing in Optical Examination", Workshop, 8th International Congress of Eye Research, San Francisco, September 1988, sponsored by the International Society for Eye Research 2 invited presentations.

Campbell, M.C.W. and +Harrison, E.M. (1988). The refractive index distribution in the crystalline lens. Proceedings of the 8th International Congress of Eye Research V, p. 153, San Francisco, September 1988, sponsored by the International Society for Eye Research.

+Simonet, P. and Campbell, M.C.W. (1988). Longitudinal and transverse chromatic aberration of the human eye. Am. J. Optom & Physiol. Optics, 65 pg. 147p, Annual Meeting American Academy of Optometry, Columbus, Ohio, December, 1988.

+Simonet, P. and Campbell, M.C.W. (1988). Measurement of transverse chromatic aberration in the human eye. Invest. Ophthal. Visual Science, 29 (Suppl) pg. 447, Sarasota, May, 1988, sponsored by The Association for Research in Vision and Ophthalmology.

+Simonet, P. and Campbell, M.C.W. (1988). L'aberration chromatique transverse de l'oeil humain au niveau fovéal. Annales de l'ACFAS, 56 p. 146, mai, Moncton, Association Canadienne francaise pour l'avancement des sciences.

+Simonet, P., Campbell, M.C.W. and +Harrison, E.M. (1987). Magnitude of chromatic variation of magnification on the human fovea. J. Opt. Soc. Am. A, 4 p. 115, Rochester, New York, October 1987, Annual Meeting, Optical Society of America.

Campbell, M.C.W. (1986). Optical specialization of the human eye across the visual field, The Association for Research in Vision and Ophthalmology, Annual Meeting Abstracts, pg. 77, May, 1986, Sarasota, Florida.

Campbell, M.C.W., +Ellison, P.J. and Strong, J.G. (1986). Investigation of optical factors in unexpectedly large field enhancements. Am. J. Optom. & Physiol. Optics. 63, pg. 87p, Annual Meeting, American Academy of Optometry, Toronto, December, 1986.

+Ellison, P.J., Campbell, M.C.W., Strong, J.G. and Lovasik, J.V. (1986). Enhancement of a severely constricted field with reversed Galilean telescope, Am. J. Optom. & Physiol. Optics, 63, pg. 87p, Annual Meeting, American Academy of Optometry, Toronto, December, 1986.

Kothe, A.C., Lovasik, J.V. and Campbell, M.C.W. (1986). Influence of laser speckle exposure time on dark focus of accommodation. Am. J. Optom. & Physiol. Optics. 63, p. 82P., Annual Meeting, American Academy of Optometry, Toronto, December, 1986.

Campbell, M.C.W. (1985). Design of anatomically based lens and eye models and experimental confirmation. Am. J. Optom. & Physiol. Optics 62, 11p. Annual Meeting, American Academy of Optometry, Atlanta, December, 1985.

Campbell, M. (1984). The decrease in optical image quality in the periphery is a specialization of the human eye. Perception, 13, A28, 7th European Conference on Visual Perception, Cambridge, August, 1984.

Campbell, M.C.W. (1983). Nocturnal gradient refractive index optics: the eye of the rat. International Union of Physiological Sciences, Proceedings 15, p. 508, XXIX Congress, Sydney, August, 1983.

Campbell, M.C.W. (1983). Chromatic aberration is not primarily responsible for the artifact of retinoscopy but does reduce image quality in the eye of the rat. Australian Physiological and Pharmacological Society, Proceedings 14, 12P, Canberra, May, 1983.

Campbell, M.C.W., Hughes, A. and Sands, P.J. (1982). Anatomically based gradient refractive index model of the rat eye predicting image quality across the retina. J. Opt. Soc. Am. 72, 1110, Gradient Index Optical Imaging Systems, Rochester, May, 1982.

Campbell, M.C. (1978): An analytic solution of the optics of the rat eye. Australian Physiological and Pharmacological Society, Proceedings 9, 48P.