词条 | Illuminant D65 |
释义 |
CIE Standard Illuminant D65 (sometimes written D65[1][2]) is a commonly used standard illuminant defined by the International Commission on Illumination (CIE).[3] It is part of the D series of illuminants that try to portray standard illumination conditions at open-air in different parts of the world. D65 corresponds roughly to the average midday light in Western Europe / Northern Europe (comprising both direct sunlight and the light diffused by a clear sky), hence it is also called a daylight illuminant. As any standard illuminant is represented as a table of averaged spectrophotometric data, any light source which statistically has the same relative spectral power distribution (SPD) can be considered a D65 light source. There are no actual D65 light sources, only simulators. The quality of a simulator can be assessed with the CIE Metamerism Index.[4][5] The CIE positions D65 as the standard daylight illuminant: {{quote|[D65] is intended to represent average daylight and has a correlated colour temperature of approximately 6500 K. CIE standard illuminant D65 should be used in all colorimetric calculations requiring representative daylight, unless there are specific reasons for using a different illuminant. Variations in the relative spectral power distribution of daylight are known to occur, particularly in the ultraviolet spectral region, as a function of season, time of day, and geographic location.|ISO 10526:1999/CIE S005/E-1998|CIE Standard Illuminants for Colorimetry[6]}}History{{details|Standard illuminant#Illuminant series D}}The CIE introduced three standard illuminants in 1931:
B and C were derived from A by using liquid filters. The approximation to real light this provided was found lacking, so in 1967 the CIE accepted a proposal by Judd, MacAdam, and Wyszecki for a new series of daylight simulators, bearing the initial D.[7][8][9] DefinitionD65 is a tabulated SPD in increments of 5 nm from 300 nm to 830 nm, using linear interpolation on the original data binned at 10 nm.[10][11] The CIE recommends using linear interpolation of the component SPDs, S0, S1, and S2 if the application requires greater precision, but there is a proposal to use spline interpolation instead.[12] The CIE 1931 color space chromaticity coordinates of D65 are using the standard 2° observer. Normalizing for relative luminance (i.e. set {{math|1=Y = 100}}), the XYZ tristimulus values are For the supplementary 10° observer, and the corresponding XYZ tristimulus values are Since D65 represents white light, its co-ordinates are also a white point, corresponding to a correlated color temperature of 6504 K. Rec. 709, used in HDTV systems, truncates the CIE 1931 coordinates to x=0.3127, y=0.329. Why 6504 K?The name D65 suggests that the correlated color temperature (CCT) should be 6500 K, while in truth it is closer to 6504 K. This discrepancy is due to the scientific community's revision of the constants in Planck's law after the definition of the illuminant.[3] This shifted the Planckian locus, affecting all CCTs, which are calculated by finding the nearest point on the locus to the white point. The same discrepancy applies to all standard illuminants in the D series—D50, D55, D65, D75—and can be "rectified" by multiplying the nominal color temperature by ; for example for D65. References1. ^{{cite book|last=Noboru|first=Ohta|author2=Robertson, Alan R.|title=Colorimetry|publisher=Wiley|pages=92–96|isbn=978-0-470-09472-3|year=2005|chapter=3.9: Standard and Supplementary Illuminants|doi=10.1002/0470094745.ch3}} 2. ^{{cite book|title=Digital Video and HDTV: Algorithms and Interfaces|first=Charles A.|last=Poynton|isbn=978-1-55860-792-7|page=224|year=2003|publisher=Morgan Kaufmann|url=https://books.google.com/books?id=ra1lcAwgvq4C&pg=RA1-PA224&dq=The+CIE+D+illuminants+are+properly+denoted+with+a+two-digit++subscript.|quote=The CIE D illuminants are properly denoted with a two-digit subscript.}} 3. ^1 {{cite book|title=Colorimetry: Understanding the CIE System|first=János|last=Schanda|chapter=3. CIE Colorimetry|isbn=978-0-470-04904-4|year=2007|publisher=Wiley|doi=10.1002/9780470175637.ch3|quote=In 1967 the International Practical Temperature Scale, 1948, amended 1960 was in use. With that temperature scale c2 was 1.438×10−2m·K. In 1968, the International Practical Temperature Scale changed the value of c2 to 1.4388×10−2 m·K. Because of this fact the CCT of a daylight phase of T K on the 1948/1960 scale changed to 1.4388/1.4380×T, thus D65 with its ‘‘nominal CCT’’ has now a CCT of approximately 6504 K, and this temperature has to be set into the Equations (3.17) and (3.18) to get to the SPD as defined in 1967.|pages=25–78}} 4. ^{{cite book |author=CIE Technical Report |year=1999 |isbn=978-92-9034-051-5 |title=A Method for Assessing the Quality of Daylight Simulators for Colorimetry |url=http://www.cie.co.at/publ/abst/51-2-99.html |issue=51.2–1999 (including Supplement 1–1999) |quote=A method is provided for evaluating the suitability of a test source as a simulator of CIE Standard Illuminants D55, D65, or D75. The Supplement, prepared in 1999, adds the CIE Illuminant D50 to the line of illuminants where the method can be applied to. For each of these standard illuminants, spectral radiance factor data are supplied for five pairs of nonfluorescent samples that are metameric matches. The colorimetric differences of the five pairs are computed for the test illuminant; the average of these differences is taken as the visible range metamerism index and is used as a measure of the quality of the test illuminant as a simulator for nonfluorescent samples. For fluorescent samples, the quality is further assessed in terms of an ultraviolet range metamerism index, defined as the average of the colorimetric differences computed with the test illuminant for three further pairs of samples, each pair consisting of a fluorescent and a nonfluorescent sample which are metameric under the standard illuminant. |publisher=Bureau central de la CIE |location=Paris |archive-url=https://web.archive.org/web/20170821085424/http://www.cie.co.at/publ/abst/51-2-99.html |archive-date=2017-08-21 |dead-url=yes}} 5. ^{{cite journal | author = Lam, Yuk-Ming |author2=Xin, John H. |date=August 2002 | title = Evaluation of the quality of different D65 simulators for visual assessment | journal = Color Research & Application | volume = 27 | issue = 4 | pages = 243–251 | doi = 10.1002/col.10061}} 6. ^{{cite web |url=http://www.cie.co.at/publ/abst/s005.html |title=CIE Standard Illuminants for Colorimetry |author= |date=1999 |website=www.cie.co.at |publisher=CIE |access-date=2018-12-17 |archive-url=https://web.archive.org/web/20171204115107/http://www.cie.co.at/publ/abst/s005.html |archive-date=2017-12-04 |dead-url=yes}} 7. ^{{cite journal|url=http://www.opticsinfobase.org/abstract.cfm?URI=josa-54-8-1031| title=Spectral Distribution of Typical Daylight as a Function of Correlated Color Temperature|first=Deane B.|last=Judd|author2=MacAdam, David L |author3=Wyszecki, Günter | journal=JOSA|date=August 1964|volume=54|issue=8|pages=1031–1040| format=abstract|doi=10.1364/JOSA.54.001031}} 8. ^{{cite journal|journal=JOSA|date=February 1968|volume=58|issue=2|url=http://www.opticsinfobase.org/abstract.cfm?URI=josa-58-2-284|title=Recent Agreements Reached by the Colorimetry Committee of the Commission Internationale de l'Eclairage|pages=290–292|first=Günter|last=Wyszecki|format=abstract|doi=10.1364/JOSA.58.000290}} 9. ^{{cite conference|date=June 19–28, 1967|title=Proceedings of the 16th session|conference=Washington, D.C|location=Paris|publisher=CIE|author=Committee E-1.3.1 (Colorimetry)}} 10. ^{{cite web |url=http://www.cie.co.at/publ/abst/datatables15_2004/std65.txt |title=Relative SPD of D65, 300–780nm in 5nm increments. |author= |date= |website=www.cie.co.at |publisher=CIE |access-date=2018-12-17 |archive-url=https://web.archive.org/web/20171122140854/http://www.cie.co.at:80/publ/abst/datatables15_2004/std65.txt |archive-date=2017-11-12 |dead-url=yes}} 11. ^Relative SPD of D65 {{webarchive|url=https://web.archive.org/web/20070408004006/http://cvrl.ioo.ucl.ac.uk/database/data/cie/Illuminantd65.txt |date=2007-04-08 }}, 300–830nm in 1nm increments. Derived by linear interpolation of the 5nm table. 12. ^{{cite journal|title=Re-evaluation of daylight spectral distributions|journal=Color Research & Application|volume=25|issue=4|date=August 2000|pages=250–259|first=Balázs|last=Kránicz|author2=Schanda, János|doi=10.1002/1520-6378(200008)25:4<250::AID-COL5>3.0.CO;2-D|url=http://citeseer.ist.psu.edu/282652.html|quote=Later the S0(λ), S1(λ) and S2(λ) functions have been linearly interpolated at 5 nm steps and for even finer step-size also a linear interpolation has been recommended|citeseerx=10.1.1.42.521}} External links
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