lab color space

CIE L*a*b* (CIELAB) is the most complete color model used conventionally to describe all the colors visible to the human eye. It was developed for this specific purpose by the International Commission on Illumination (Commission Internationale d'Eclairage, hence the CIE acronym in its name). The * after L, a and b are part of the full name, since they represent L*, a* and b*, derived from L, a and b. The three parameters in the model represent the luminance of the color (L, the smallest L yields black), its position between red and green (a, the smallest a yields green) and its position between yellow and blue (b, the smallest b yields blue). The Lab color model has been created to serve as a device independent, absolute model to be used as a reference. Therefore it is crucial to realize that the visual representations of the full gamut of colors in this model are never accurate. They are there just to help in understanding the concept, but they are inherently inaccurate. Since the Lab model is a three dimensional model, it can only be represented properly in a three dimensional space. A useful feature of the model however is that the first parameter is extremely intuitive: changing its value is like changing the brightness setting in a TV set. Therefore only a few representations of some horizontal "slices" in the model are enough to conceptually visualize the whole gamut, assuming that the luminance would be represented on the vertical axis. An important thing to remember about the Lab model is the fact that it's inherently parametrized correctly, therefore no specific color spaces based on this model are needed. CIE 1976 L*a*b* is based directly on CIE XYZ as an attempt to linearize the perceptibility of color differences. The non-linear relations for L*, a*, and b* are intended to mimic the logarithmic response of the eye. Coloring information is referred to the color of the white point of the system, subscript n.

XYZ to CIE Lab* (CIELAB) and CIELAB to XYZ conversions

L_* = 116 (Y/Y_n)^{1/3} - 16

for

Y/Y_n > 0.008856

L_* = 903.3 Y/Y_n

otherwise

a* = 500 ( f(X/Xn) - f(Y/Yn) )

b* = 200 ( f(Y/Yn) - f(Z/Zn) )

where

f(t) = t^{1/3}

for t > 0.008856

f(t) = 7.787 t + 16/116

otherwise

Here

X_n

Y_n

and

Z_n

are the tristimulus values of the reference white. The reverse transformation (for Y/Yn > 0.008856) is

X = X_n ( P + a^* / 500 )^3

Y = Y_n  P^3

Z = Z_n  ( P - b^* / 200 )^3

where

P = (L^* + 16) / 116

XYZ to CIELUV & CIELUV to XYZ conversions

CIE 1976 L*u*v* (CIELUV) is based directly on CIE XYZ and is another attempt to linearize the perceptibility of color differences. The non-linear relations for L*, u*, and v* are given below: