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Visions - Vol

Schrattenholzer, L. 1998. Energy Demand and Supply, 1900-2100. RR-98-4. International Institute for Applied Systems Analysis, Laxenburg, Austria. Reprinted from Science Vision, Vol. 3, No. 1, pp. 39-57. [Pg.141]

Opener Digital Vision Vol. 169/Getty 1.2 a-b The McGraw-Hill Companies/Terry Wild Studio 1.3 a-c, 1.4 a-b The McGraw-Hill Companies/Terry Wild Studio. [Pg.691]

R. W. Ziolkowski and M. Tanaka, Finite-difference time-domain modeling of dispersive-material photonic bandgap structures, J. Opt. Soc. Amer. A Opt. Image Sci. Vision, vol. 16, no. 4, pp. 930-940, Apr. 1999. [Pg.141]

Lamdan Y, Wolfson HJ. Geometric Hashing a general and efficient model-based recognition scheme. In eds. Proceedings of the IEEE International Conference on Computer Vision Vol. New York IEEE Computer Society Press, 1988 238-249. [Pg.430]

J. C. Niebles, H. Wang, and L. Fei-Fei, Unsupervised learning of human action categories using spatial-temporal words, Int. J. Computer Vision, Vol. 79, No. 3, pp. 299-318, 2008. [Pg.619]

Tsai, R.Y. A versatile camera calibration technique for high-accuracy 3D machine vision meterology using off-the-shell tv cameras and lenses. IEEE. 1.Robotics Automation, Vol. RA-3(4),August 1988, pp. 323-344. [Pg.491]

POWDERS,HANDLING - DISPERSION OF POWDERS IN LIQUIDS] (Vol 19) Young-Helmholtz color-vision theory... [Pg.1081]

Langland, William.The vision of William concerning Piers Plowman, Edited by Walter W. Skeat. Edited by Walter W. Skeat. London N. Trubner Co, 1867. 2 vols... [Pg.645]

Figure 2.20 The transformation performed by the color opponency mechanism may be a simple rotation of the coordinate system. In this case, the mechanism for color constancy may operate on the rotated coordinates. (Reprinted from Vision Res., Vol. 26, No. 1, Edwin H. Land, Recent advances in retinex theory, pp. 7-21, Copyright 1986, with permission from Elsevier.)... Figure 2.20 The transformation performed by the color opponency mechanism may be a simple rotation of the coordinate system. In this case, the mechanism for color constancy may operate on the rotated coordinates. (Reprinted from Vision Res., Vol. 26, No. 1, Edwin H. Land, Recent advances in retinex theory, pp. 7-21, Copyright 1986, with permission from Elsevier.)...
Figure 2.24 A human subject with a cut corpus callosum views a color Mondrian. Half of the color Mondrian is covered with black velvet. A purple test region is located at the center of the stimulus. The left half of the stimulus is processed by the right hemisphere of the brain and vice versa. The subject views the stimulus either directly or through a mirror. (Adapted by permission from Macmillan Publishers Ltd Nature, E. H. Land, D. H. Hubei, M. S. Livingstone, S. Hollis Perry, M. M. Burns, Nature, Vol. 303, No. 5918, pp. 616-618, Copyright 1983. Figure 2.24 shows the visual path (Figure 2.9) which is reproduced from Semir Zeki. A Vision of the Brain. Blackwell Science, Oxford, 1993, by permission from Blackwell Science Ltd.)... Figure 2.24 A human subject with a cut corpus callosum views a color Mondrian. Half of the color Mondrian is covered with black velvet. A purple test region is located at the center of the stimulus. The left half of the stimulus is processed by the right hemisphere of the brain and vice versa. The subject views the stimulus either directly or through a mirror. (Adapted by permission from Macmillan Publishers Ltd Nature, E. H. Land, D. H. Hubei, M. S. Livingstone, S. Hollis Perry, M. M. Burns, Nature, Vol. 303, No. 5918, pp. 616-618, Copyright 1983. Figure 2.24 shows the visual path (Figure 2.9) which is reproduced from Semir Zeki. A Vision of the Brain. Blackwell Science, Oxford, 1993, by permission from Blackwell Science Ltd.)...
Reprinted from Vision Res., Vol. 26, No. 1, Edwin H. Fand, Recent advances in retinex theory, pp. 7-21, Copyright 1986, with permission from Elsevier... [Pg.392]

I. J, Cox and M, L, Miller, A review of watermarking and the importance of perceptual modeling, Proceedings, SPIE Human Vision and Electronic Imaging II, volume SPIE Vol. 3016, February 1997. [Pg.22]

B4] Ivins, James P. and John Pomll, A deformable model of the human Ms for measuring small three-dimensional eye movements, Machine Vision and Applications, vol. 11, str. 42-51,1998... [Pg.277]

Goldsmith, T. (1994) Ultraviolet receptors and color vision Evolutionary implications and a dissonance of paradigms. Vision Res. vol. 34, no. 11, pp 1479-1487... [Pg.2]

Boynton, R. (1979) Human Color Vision Holt, Rinehart Winston, pg 156, comment to footnote 9. 7Birge, R. (1981) Photophysics oflight transduction in rhodopsin and bacteriorhodopsin. Ann. Rev. Biophys. Bioeng. Vol. 10, pp 315-354... [Pg.3]

Stavenga, D. Smits, R. Hoenders, B. (1993) Simple exponential functions describing the absorbance bands of visual pigment spectra Vision Res vol. 33, no. 8, pp 1011-1017... [Pg.20]

Neumeyer, C. Arnold, K. (1989) Tetrachromatic colour vision in goldfish Vision Res. vol. 29, pg. 1719-27... [Pg.76]

Stockman, A., Sharpe, L. Fach, C. (1999) The spectral sensitivity of the human short-wavelength cones derived from thresholds and color matches. Vision Res., vol. 39, pp. 2901-2927... [Pg.81]

Merbs, S. Nathans, J. (1992) Absorption spectra of human cone pigments. Nature, vol 356, pp 433-435 1390prian, D. Asenjo, A. Lee, N. Pelletier, S. (1991) Design, chemical synthesis, and expression of genes for the three human color vision pigments. Biochemistry, vol 30, pp 11367-372... [Pg.86]

Lamb, T. (1995) Photoreceptor spectral sensitivities common shape in the long wavelength spectral region. Vision Res. vol. 35, pp 3083-3091... [Pg.87]

Aurebach, E. Wald, G. (1954) Identification of a violet receptor in Human color vision, Science, vol. 120, pp 401-405... [Pg.98]

Nathans, J. (1987) Molecular biology of visual pigments Ann Rev Neurosci vol. 10, pp 163-194 191Nathans, J. Piantinida, T. Eddy, R. Shows, T. Hogness, D. (1986) Molecular genetics of inherited variation in human color vision Science, vol. 232, pp 203-210... [Pg.110]

Merbs, S. Nathans, J. (1992) Absorption spectra of the hybrid pigments responsible for anomalous color vision Science vol. 258, pp 464-465... [Pg.111]

Neitz, J. Neitz, M. Jacobs, G. (1993) More than three different cone pigments among people with normal color vision Vision Res. vol. 33, no. 1, pp 117-122... [Pg.111]

Palacios, A. Varela, F. Srivastava, R. Goldsmith, T. (1998) Spectral sensitivity of cones in the goldfish, Carassius auratus. Vision Res. vol. 38, pp. 2135-2146... [Pg.143]

S. A. Burns and A. E. Eisner, Cone Photoreceptor Directionality and the Optical Density of the Cone Photopigments, in Vision Science and its Applications, Vol. 1, Optical Society of America Technical Digest Series, Washington, DC, 1996. [Pg.77]

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