In the last years, relevant efforts have been dedicated to the development of advanced technological solutions
for immersive visualization of Virtual Reality (VR) scenarios, with particular attention to stereoscopic images
formation. Among the various solution proposed, INFITECTM technology is particularly interesting, because it
allows the reproduction of a more accurate chromatic range than anaglyphs or polarization-based approaches.
Recently, this technology was adopted in the Virtual Theater of the University of Milan, an immersive VR
installment, used for research purposes in the fields of Human-machine interaction and photorealistic, perceptual-based,
visualization of virtual scenarios. In this paper, we want to present a first set of measures related to
the determination of an accurate chromatic, colorimetric and photometric characterization of this visualization
system. The acquired data are analyzed in order to evaluate the efective inter-calibration between the four
devices and for the determination of an accurate description of the actual effect of the INFITECTM technology.
This analysis will be the basis for the future integration of visual perception and color appereance principles in
the visualization pipeline, and for the development of robust computational models and instruments for a correct
color management in the visualization of immersive virtual environments.