ABSTRACT
Although the basis of chromatic methods can be related to the photic field concepts of Moon and Spencer (1981) and Gabor transforms (Jones et al., 2000), the adaptation of the H, L, S algorithms of color science provide a convenient basis for quantifying monitored trends in terms of signal features such as dominant frequency, signal strength, and bandwidth. However, as the perception of color by the human vision system is one particular form of general chromaticity, various algorithms employed in color science, other than the H, L, S formulations, can in principle be broadened and adapted for chromatic monitoring and processing.
