Advanced search
Publication Cover
LEUKOS
The Journal of the Illuminating Engineering Society
Volume 14, 2018 - Issue 2
Submit an article Journal homepage
384
Views
4
CrossRef citations to date
0
Altmetric
Articles

Comparing Measures of Average Color Fidelity

Michael P. RoyerPacific Northwest National Laboratory, Portland, Oregon, USACorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-7231-3418View further author information
ORCID Icon
Pages 69-85 | Received 25 Aug 2017, Accepted 02 Oct 2017, Published online: 11 Dec 2017

References

  • [CIE] Commission International de l’Eclairage. 1995. Method of measuring and specifying colour rendering properties of light sources. 3rd ed. Vienna (Austria): CIE. 13.3. 16 p.
  • [CIE] Commission International de l’Eclairage. 2017. Colour fidelity index for accurate scientific use. Vienna (Austria): CIE. 224:2017. 44 p.
  • David A, Fini PT, Houser KW, Ohno Y, Royer MP, Smet KA, Wei M, Whitehead L. 2015. Development of the IES method for evaluating the color rendition of light sources. Opt Express. 23(12):15888–15906. doi:10.1364/OE.23.015888.
  • Davis W, Ohno Y. 2010. Color quality scale. Opt Eng. 49(3):1–16. doi:10.1117/1.3360335.
  • De Beer E, Van Der Burgt P, Van Kemenade J. 2015. Another color rendering metric: do we really need it, can we live without it? LEUKOS. 12(1–2):51–59. doi:10.1080/15502724.2014.991793.
  • Esposito T. 2016. Modeling color rendition and color discrimination with average fidelity, average gamut, and gamut shape [dissertation]. University Park (PA): Penn State University. 176 p.
  • Freeman K. 2003. GE celebrates sale of the one hundred millionth reveal bulb; strong marketing campaign enhances sales of 100 million bulbs in less than two years. <http://www.businesswire.com/news/home/20030305005109/en/GE-Celebrates-Sale-Millionth-Reveal-Bulb-Strong>. Accessed Sept. 1, 2017.
  • Houser KW, Mossman M, Smet K, Whitehead L. 2016. Tutorial: color rendering and its applications in lighting. LEUKOS. 12(1–2):7–26. doi:10.1080/15502724.2014.989802.
  • Houser KW, Wei M, David A, Krames MR, Shen XS. 2013. Review of measures for light-source color rendition and considerations for a two-measure system for characterizing color rendition. Opt Express. 21(8):10393–103411. doi:10.1364/OE.21.010393.
  • [IES] Illuminating Engineering Society of North America. 2015. Method for evaluating light source color rendition. New York (NY): IES. IES TM-30-15. 26 p.
  • Islam MS, Dangol R, Hyvarinen M, Bhusal P, Puolakka M, Halonen L. 2013. User preferences for LED lighting in terms of light spectrum. Lighting Res Technol. 45(6):641–665. doi:10.1177/1477153513475913.
  • Jerome CW. 1972. Flattery vs color rendition. J Illum Eng Soc. 1(3):208–211.
  • Jost-Boissard S, Avouac P, Fontoynont M. 2014. Assessing the colour quality of LED sources: naturalness, attractiveness, colourfulness and colour difference. Lighting Res Technol. 47(7):769–794. doi:10.1177/1477153514555882.
  • Jost-Boissard S, Fontoynont M, Blanc-Gonnet J. 2009. Perceived lighting quality of LED sources for the presentation of fruit and vegetables. J Mod Optic. 56(13):1420–1432. doi:10.1080/09500340903056550.
  • Khanh T, Bodrogi P. 2016. Colour preference, naturalness, vividness and colour quality metrics, Part 3: experiments with makeup products and analysis of the complete warm white dataset. Lighting Res Technol. doi:10.1177/1477153516669558.
  • Khanh TQ, Bodrogi P, Vinh Q, Stojanovic D. 2016a. Colour preference, naturalness, vividness and colour quality metrics, Part 1: experiments in a room. Lighting Res Technol. 49(6): 697-713. doi:10.1177/1477153516643359.
  • Khanh TQ, Bodrogi P, Vinh Q, Stojanovic D. 2016b. Colour preference, naturalness, vividness and colour quality metrics, Part 2: experiments in a viewing booth and analysis of the combined dataset. Lighting Res Technol. 49(6): 714-726. doi:10.1177/1477153516643570.
  • Khanh TQ, Vinh QT, Bodrogi P. 2016. A numerical analysis of recent colour rendition metrics. Lighting Res Technol. 49(5):561-573. doi:10.1177/1477153516632568.
  • Lin Y, Wei M, Smet K, Tsukitani A, Bodrogi P, Khanh T. 2015. Colour preference varies with lighting application. Lighting Res Technol. 49(3):316–328. doi:10.1177/1477153515611458.
  • Liu A, Tuzikas A, Zukauskas A, Vaicekauskas R, Vitta P, Shur M. 2013. Cultural preferences to color quality of illumination of different artwork objects revealed by a color rendition engine. IEEE Photonics J. 5(4):6801010. doi:10.1109/JPHOT.2013.2276742.
  • Luo MR, Cui G, Li C. 2006. Uniform colour spaces based on CIECAM02 colour appearance model. Color Res Appl. 31(4):320–330. doi:10.1002/col.20227.
  • Ohno Y, Fein G, Miller C. 2015. Vision experiment on chroma saturation for color quality preference. In: 28th CIE Session; 2015 Jun 28–Jul 4; Manchester, UK. Vienna (Austria): CIE. p 1–10.
  • Quellman EM, Boyce PR. 2002. The light source color preferences of people of different skin tones. J Illum Eng Soc. 31(1):109–118.
  • Rea MS, Freyssinier JP. 2010. Color rendering: beyond pride and prejudice. Color Res Appl. 35(6):401–409. doi:10.1002/col.20562.
  • Rea MS, Freyssinier JP. 2015. TM-30: curb your enthusiasm. LD+A. New York (NY): Illuminating Engineering Society.
  • Rea MS, Freyssinier-Nova JP. 2008. Color rendering: a tale of two metrics. Color Res Appl. 33(3):192–202. doi:10.1002/col.20399.
  • Royer MP. 2016. What is the reference? An examination of alternatives to the reference sources used in IES TM-30-15. LEUKOS. 13(2):71–89. doi:10.1080/15502724.2016.1255146.
  • Royer MP, Houser K, David A. 2017. Chroma shift and gamut shape: going beyond average color fidelity and gamut area. LEUKOS. doi:10.1080/15502724.2017.1372203
  • Royer MP, Wei M. 2017. The role of presented objects in deriving color preference criteria from psychophysical studies. LEUKOS. 13(3):143–157. doi:10.1080/15502724.2016.1271339.
  • Royer MP, Wilkerson A, Wei M. 2017. Human perceptions of color rendition at different chromaticities. Lighting Res Technol. doi:10.1177/1477153517725974.
  • Royer MP, Wilkerson A, Wei M, Houser K, Davis R. 2016. Human perceptions of colour rendition vary with average fidelity, average gamut, and gamut shape. Lighting Res Technol. doi:10.1177/1477153516663615.
  • Schanda J, Csuti P, Szabo F. 2016. A new concept of color fidelity for museum lighting: based on an experiment in the Sistine Chapel. LEUKOS. 12(1–2):71–77. doi:10.1080/15502724.2014.978503.
  • Schanda J, Sandor N. 2003. Colour rendering, past—present—future. International Lighting and Colour Conference; Nov. 2-5 Cape Town, South Africa.
  • Smet K, David A, Whitehead L. 2015. Why color space uniformity and sample set spectral uniformity are essential for color rendering measures. LEUKOS. 12(1–2):39–50. doi:10.1080/15502724.2015.1091356.
  • Smet K, Ryckaert WR, Pointer MR, Deconinck G, Hanselaer P. 2010. Memory colours and colour quality evaluation of conventional and solid-state lamps. Opt Express. 18(25):26229–26244. doi:10.1364/OE.18.026229.
  • Smet K, Ryckaert WR, Pointer MR, Deconinck G, Hanselaer P. 2011. Correlation between color quality metric predictions and visual appreciation of light sources. Opt Express. 19(9):8151–9166. doi:10.1364/OE.19.008151.
  • Smet K, Schanda J, Whitehead L, Luo RM. 2013. CRI2012: a proposal for updating the CIE colour rendering index. Lighting Res Technol. 45(6):689–709. doi:10.1177/1477153513481375.
  • Spaulding JM. 2012. Evaluation of desirability assessment techniques for tunable solid state lighting applications. Proceedings of the Human Factors and Ergonomics Society Annual Meeting; 2012 Oct 22–26; Boston, MA.
  • Szabó F, Csuti P, Schanda J. 2009. Color preference under different illuminants—new approach of light source coloour quality. Light and Lighting Conference with Special Emphasis on LEDs and Solid State Lighting; 2009 May 27–29; Budapest, Hungary.
  • Szabó F, Keri R, Schanda J, Csuti P, Mihalyko-Orban E. 2014. A study of preferred colour rendering of light sources: home lighting. Lighting Res Technol. 48(2):103–125. doi:10.1177/1477153514555536.
  • Teunissen C, Van Der Heijden F, Poort SHM, De Beer E. 2016. Characterising user preference for white LED light sources with CIE colour rendering index combined with a relative gamut area index. Lighting Res Technol. 49(4):461–480. doi:10.1177/1477153515624484.
  • Thornton WA. 1974. A validation of the color-preference index. J Illum Eng Soc. 4(1):48–52. doi:10.1080/00994480.1974.10732288.
  • Van Der Burgt P, Van Kemenade J. 2010. About color rendition of light sources: the balance between simplicity and accuracy. Color Res Appl. 35(2):85–93.
  • Veitch JA, Tiller DK, Pasini I, Arsenault CD, Jaekel RR, Svec JM. 2002. The effects of fluorescent lighting filters on skin appearance and visual performance. J Illum Eng Soc. 31(1):40–60.
  • Veitch JA, Whitehead LA, Mossman M, Pilditch TD. 2014. Chromaticity-matched but spectrally different light source effects on simple and complex color judgments. Color Res Appl. 39(3):263–274. doi:10.1002/col.21811.
  • Wadhwa AM, Davis RG. 1998. Lighting of historical facades—a comparison of different lamp technologies. J Illum Eng Soc. 27(2):43–58.
  • Wang Y, Wei M. 2017. Preference among light sources with different Duv but similar colour rendition: a pilot study. Lighting Res Technol. doi:10.1177/1477153517712552.
  • Wei M, Houser KW. 2012. Status of solid-state lighting based on entries to the 2010 U.S. DOE next generation luminaire competition. LEUKOS. 8(4):237–259.
  • Wei M, Houser KW, Allen GR, Beers WW. 2014. Color preference under LEDs with diminished yellow emission. LEUKOS. 10(3):119–131. doi:10.1080/15502724.2013.865212.
  • Wei M, Houser K, David A, Krames M. 2014. Perceptual responses to LED illumination with colour rendering indices of 85 and 97. Lighting Res Technol. 47(7):810–827. doi:10.1177/1477153514548089.
  • Wei M, Houser K, David A, Krames M. 2016a. Colour gamut size and shape influence colour preference. Lighting Res Technol. doi:10.1177/1477153516651472.
  • Wei M, Houser K, David A, Krames M. 2016b. Effect of gamut shape on color preference. In: CIE 2016 lighting quality and energy efficiency. Melbourne, Australia. Vienna (Austria): Commission Internationale de l’Eclairage. p. 32–41.
  • Xu W, Wei M, Smet K, Lin Y. 2016. The prediction of perceived colour differences by colour fidelity metrics. Lighting Res Technol. doi:10.1177/1477153516653650.
  • Zukauskas A, Vaicekauskas R, Vitta P, Tuzikas A, Petrulis A, Shur M. 2012. Color rendition engine. Opt Express. 20(5):5356–5367. doi:10.1364/OE.20.005356.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.