WhiteheadL, PapamichaelK, SiminovitchM.2016. Short-Term Color Preference Comparisons are Inadequate for Optimizing LongTerm Illumination. LD+A.46(4): 98–102.
2.
PapamichaelK, SiminovitchM, VeitchJA, WhiteheadL.High color rendering can enable better vision without requiring more power. LEUKOS. 2016 Apr 2; 12(1-2):27–38.
3.
FairchildM.2013. Color appearance models. 3rd Edition. Wiley Ed. 450 P.
4.
JuddDB.1967. Flattery index for artificial illuminants. IES Transactions. 593–598.
5.
JeromeCW.1972. Flattery vs color rendition. JIES1(3):208–211.
6.
ThorntonWA.1974. A validation of the color-preference index. JIES4(1):48–52.
7.
OhnoY, FeinG, MillerC.Vision Experiment on chroma saturation for color quality preference. 28th CIE Session; 2015; Manchester, UK: Commission Internationale de l'Eclairage.
8.
RoyerM, WilkersonA, WeiM, HouserK, DavisR.2016. Human perceptions of colour rendition vary with average fidelity, average gamut, and gamut shape. Lighting Res Technol. Online before print. DOI: 10.1177/1477153516663615
9.
WeiM, HouserK, DavidA, KramesM.2016. Color gamut size and shape influence colour preference. Lighting Research & Technology. Online before print. DOI: 10.1177/1477153516651472
10.
BaeGi-Yeul; OlkkonenMaria; AllredSarah R.; FlombaumJonathan I.2015. Why some colors appear more memorable than others: A model combining categories and particulars in color working memory. J Exp Psychol Gen144(4): 744–763.
11.
LeeSM, LeeKT, LeeSH, SongJK.2013. Origin of human colour preference for food. J Food Eng119(3)508–515.
12.
KuhbandnerC, SpitzerB, LichtenfeldS, PekrunR.2015. Differential binding of colors to objects in memory: red and yellow stick better than blue and green. Front Psychol6(231).
WeiM, HouserKW, DavidA, KramesMR.2015. Perceptual response to LED illumination with colour rendering indices of 85 and 97. Lighting Res Technol47(7): 810–827.
