Currently, as a rule, digital medical systems use monochromatic Liquid Crystal Display (LCD) monitors to ensure an accurate reproduction of the Grayscale Standard Display Function (GSDF) as specified in the Digital Imaging and Communications in Medicine (DICOM) Standard. As a drawback, special panels need to be utilized in digital medical systems, while it would be preferable to use regular color panels, which are manufactured on a wide scale and are thus available at by far lower prices. The method proposed introduces a temporal color dithering technique to accurately reproduce the GSDF on color monitors without losing monitor resolution. By exploiting the characteristics of the Human Visual System (HVS) the technique ensures that a satisfactory grayscale reproduction is achieved minimizing perceivable flickering and undesired color artifacts. The algorithm has been implemented in the monitor using a low-cost Field Programmable Gate Array (FPGA). Quantitative evaluations of luminance response on a 3 Mega-pixel color monitor have shown that the compliance with the GSDF can be achieved with the accuracy level required by medical applications. At the same time the measured color deviation is below the threshold perceivable by the human eye.
[1]
D. H. Kelly.
Spatio-temporal frequency characteristics of color-vision mechanisms*
,
1974
.
[2]
Chai Wah Wu,et al.
Color and Luminance Management for High-Resolution Liquid-Crystal Displays
,
2003
.
[3]
Xiao-fan Feng,et al.
Bit-depth extension: Overcoming LCD-driver limitations by using models of the equivalent input noise of the visual system
,
2005
.
[4]
L M Hurvich,et al.
Temporal sensitivities related to color theory.
,
1984,
Journal of the Optical Society of America. A, Optics and image science.
[5]
J. Mulligan.
METHODS FOR SPATIOTEMPORAL DITHERING N
,
1997
.
[6]
Lindsay W. MacDonald,et al.
Colour engineering: achieving device independent
,
2002
.