Hedva Spitzer

Tel Aviv University, Tel Aviv-Yafo, Tel Aviv District, Israel 
Color Vision
"Hedva Spitzer"
Mean distance: 14.27 (cluster 29)
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Kanelovitch L, Itzchak Y, Rundstein A, et al. (2013) Biologically derived companding algorithm for high dynamic range mammography images. Ieee Transactions On Bio-Medical Engineering. 60: 2253-61
Ron E, Spitzer H. (2011) Is the Kanizsa illusion triggered by the simultaneous contrast mechanism? Journal of the Optical Society of America. a, Optics, Image Science, and Vision. 28: 2629-41
Cohen-Duwek H, Spitzer H, Weitzen R, et al. (2011) A biologically-based algorithm for companding computerized tomography (CT) images. Computers in Biology and Medicine. 41: 367-79
Tsofe A, Spitzer H. (2011) Second-order Mach bands: chromatic and achromatic. Vision Research. 51: 1109-15
Tsofe A, Yucht Y, Beyil J, et al. (2010) Chromatic Vasarely effect. Vision Research. 50: 2284-94
Tsofe A, Spitzer H, Einav S. (2009) Does the chromatic Mach bands effect exist? Journal of Vision. 9: 20.1-29
Barkan Y, Spitzer H, Einav S. (2008) Brightness contrast-contrast induction model predicts assimilation and inverted assimilation effects. Journal of Vision. 8: 27.1-26
Ellenbogen T, Polat U, Spitzer H. (2006) Chromatic collinear facilitation, further evidence for chromatic form perception. Spatial Vision. 19: 547-68
Spitzer H, Barkan Y. (2005) Computational adaptation model and its predictions for color induction of first and second orders. Vision Research. 45: 3323-42
Spitzer H, Zimmer Y. (2004) Improvement of illumination artifacts in medical ultrasound images using a biologically based algorithm for compression of wide dynamic range 11th Ieee International Conference On Electronics, Circuits and Systems, Icecs 2004. 435-438
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