Domain and range of the CIECAM16 forward transformation
Metadatos
Mostrar el registro completo del ítemEditorial
Optica Publishing Group
Fecha
2023-07-03Referencia bibliográfica
Cheng Gao, Manuel Melgosa, Kaida Xiao, Michael R. Pointer, and Changjun Li, "Domain and range of the CIECAM16 forward transformation," Opt. Express 31, 23702-23713 (2023)[https://doi.org/10.1364/OE.493856]
Patrocinador
National Natural Science Foundation of China (61575090, 61775169); Department of Education of Liaoning Province (LJKQZ2021127, LJKZ0291, LJKZ0310); University of Science and Technology Liaoning (2021YQ04, LKDYC202103); Ministerio de Ciencia e Innovación (PID2019-107816GB-I00/SRA/10.13039/501100011033)Resumen
The domain and range of the CIECAM16 forward transformation was numerically
determined and visualized for CIE standard illuminants, using a linear programming approach
that provides the gamuts and colour solids for optimum colours. The effect of the surround,
adapting luminance, and luminance of the background on the range of the CIECAM16 forward
transformation were individually analyzed, showing that their ranges increased when the surround
changed from dark to dim or average, the adapting luminance increased, or the luminance of the
background decreased. The proposed methodology for the determination and visualization of the
domain and range of the CIECAM16 forward transformation can be used for any illuminant, as
well as for CIECAM02, CAM16, CAM02-UCS and CAM16-UCS. The findings of this paper not
only solve the long-term unresolved domain and range problems of the CIE colour appearance
models, but also find applications in cross-media colour reproduction. Furthermore, it was
also found that some non-CIE colours are inside the International Color Consortium Profile
Connection Space (ICC PCS), and some CIE colours are not included in that space.