A variety of light sources are used in museum environments where the
main concern is to prevent damaging effects of the light on paintings.
Yet, the visual impression of an artistic painting is strongly influenced
by the intensity and spectral profile of the illumination. The aim of this
work was to determine psychophysically the spectral profile of the
illumination preferred by observers when seeing paintings dated from the
Renaissance époque and to investigate how their preferences
correlate with the color temperature of the illumination and with the
chromatic diversity of the paintings. Hyperspectral images of five oil
paintings on wood were collected at the museum and the appearance of the
paintings under five representative illuminants computed. Chromatic
diversity was estimated by computing the representation of the paintings
in the CIELAB color space and by counting the number of nonempty unit
cubes occupied by the corresponding color volume. A paired-comparison
experiment using precise cathode ray tube (CRT) reproductions of the
paintings rendered with several illuminant pairs with different color
temperatures was carried out to determine observers' preference. The
illuminant with higher color temperature was always preferred except for
one pair where no clear preference was expressed. The preferred illuminant
produced the larger chromatic diversity, and for the condition where no
specific illuminant was preferred the number of colors produced by the
illuminant pair was very similar, a result suggesting that preference
could have been influenced by chromatic diversity.