191001, page CEI.HTM;
the home TUB web site opens in a new window:
http://130.149.60.45/~farbmetrik/
or use another home TUB web site
with a copy of this information:
http://farbe.li.tu-berlin.de/
For this page without additional image information, see
CE in English,
CG in German.
For this page with additional image information (internet speed > 1MB/s recommended), see
CEI in English,
CGI in German.
For the preceding page without additional image information, see
BE in English,
BG in German.
For the preceding page with additional image information, see
BEI in English,
BGI in German.
For the next page without additional image information, see
DE in English,
DG in German.
For the next page with additional image information, see
DEI in English,
DGI in German.
Figures and data
are in the folders CEXX (colour series C, E=English, XX=00 to 99).
Introduction:
Development of a device independent visual RGB* colour space
for colour vision and image technology
see BE in English,
or BG in German.
See also the booklet of K. Richter (2015, 80 pages, 2,5 MB)
Colour, Colour Vision and Elementary Colours in Colour Information Technology I------
Important colour series with increasing numbers
ES15.PDF
For the application of "antichromatic Ostwald optimal colours"
download the following two reports. The following two alternative links are in the standard MLA format.
If the first link to a CIE web site is not working then the second link may be used for the download from an archive server.
.
Thorstein Seim, Reportership Report CIE R1-47, Hue angles of elementary colours, 2009, see (35 pages),
[http://files.cie.co.at/526.pdf]._Internet Archive_.[
http://web.archive.org/web/20160304130704/http://files.cie.co.at/526.pdf].
Thorstein Seim, Reportership Report CIE R1-57, Border between Blackish and Luminous Colours, 2013, see (23 pages),
[
http://files.cie.co.at/716_CIE%20R1-57%20Report%20Jul-13%20v.2.pdf]._Internet Archive_.[
http://web.archive.org/web/20150413002133/http://files.cie.co.at/716_CIE%20R1-57%20Report%20Jul-13%20v.2.pdf].
For more technical information please read the chapter:
Technical general information about the dominant wavelength and the chromaticity diagrams
see BE in English,
or BG in German.
Folder and Title: All colour series with increasing numbers without plots:
Munsell colours Chroma 2, Value 1 to 9 in the CIE chromaticity diagram (x, y)
Colour values (Ai, Bi) and chroma (A*i, B*i) (i=0 to 6)
similar to the LMS-R17Mx model colorimetry.
CE00: Yw=100, Ym=520-770.
Relative elementary colour vision and model colorimetry LMS-R17Mx (x=1,2,3,4)
Model colour sensitivities and excitations and spectral colour values
for threshold values ta=0,00.
CE01 Sensitivities LMS and excitations [log and lin].
CE02 Sensitivities LMS and excitations [log and lin].
CE03 Sensitivities LMS and excitations [log and lin].
Relative elementary colour vision and model colorimetry (LMS/XYZ)-17M(1/s)
Model colour sensitivities and excitations, chromatic values, and spectral tristimulus values
for threshold values ta=0,00, model 17Ms: von Kries chromatic adaptation; model 17M1: Richter chromatic adaptation
CE04 Cone sensitivities LMS and excitations [log], and von Kries colorimetry.
CE05 Cone sensitivities LMS and excitations [log], and (a,b) chromaticity shift colorimetry.
CE06 Cone sensitivities LMS and chromatic values [lin], and von Kries colorimetry.
CE07 Cone sensitivities LMS and chromatic values [lin], and von Kries colorimetry.
CE08 Cone sensitivities LMS and chromatic values [lin], and (a,b) chromaticity shift colorimetry.
CE09 Cone sensitivities LMS and chromatic values [lin], and (a,b) chromaticity shift colorimetry.
Munsell colours of equal Chroma C=2 and equal Value V=1, 2, 5, 8, and 9
for eigth Planck illuminants P60, P55, P50, P45, P40, P35, P30, and P25,
see page 4 of 8 for the illuminant P45 (CCT = 4500 K).
Allways the CIE chromaticity diagram (x, y)
and seven chromaticity diagrams (ai, bi) (i=0 and 6) are on the (left ) side.
CE10: Munsell colours in the CIE chromaticity diagram (x, y)
and seven chromaticity diagrams (ai, bi) (i=0 to 6) (right).
CE11: Munsell colours in the CIE chromaticity diagram (x, y)
and in seven chromatic values diagrams (Ai, Bi) (i=0 to 6) (right).
CE12: Munsell colours in the CIE chromaticity diagram (x, y)
and in seven chroma diagrams (A*i, B*i) (i=0 to 6) (right).
Munsell colours of equal Chroma C=2 and equal Value V=1, 2, 5, 8, and 9
for eight CIE illuminants D65, D50, P40, A00 (A), E00 (E), C00 (C),
P00 (relative amount of quantums for equal energy),
and Q00 (necessary energy fo equal amount of quanta),
see page 5 of 8 for the CIE illuminant C.
Allways the CIE chromaticity diagram (x, y)
and seven chromaticity diagrams (ai, bi) (i=0 and 6) are on the (left ) side.
CE13: Munsell colours in the CIE chromaticity diagram (x, y)
and seven chromaticity diagrams (ai, bi) (i=0 to 6) (right).
CE14: Munsell colours in the CIE chromaticity diagram (x, y)
and in seven chromatic values diagrams (Ai, Bi) (i=0 to 6) (right).
CE15: Munsell colours in the CIE chromaticity diagram (x, y)
and in seven chroma diagrams (A*i, B*i) (i=0 to 6) (right).
Ostwald optimal colours of a colour half with complementary wavelength limits
for eight Planck illuminants P60 to P25
with the correlated colour temperatures CCT 6000 K to 2500 K,
see page 4 of 8 for the Planck illuminant P45 (CCT 4500 K).
CIE data XYZ and xyz (left)
and these colours in the CIE chromaticity diagram
(x, y) and the chromaticity diagrams (ai, bi) (i=0 to 6).
CE16: Yw=100, Ym=520-770.
CE17: Yw=88,6, Ym=520-770.
CIE data XYZ10 and xyz10 (left)
and these colours in the CIE chromaticity diagram
(x10, y10) and the chromaticity diagrams (ai10, bi10) (i=0 to 6).
CE18: Yw10=100, Ym10=520-770.
CE19: Yw10=88,6, Ym10=520-770.
Chromatic values YABC and chromaticity a, b (left)
and these colours in the CIE chromaticity diagram
(x, y) and the chromatic value diagram (Ai, Bi) (i=0 to 6).
CE20: Yw=100, Ym=520-770.
CE21: Yw=88,6, Ym=520-770.
Chromatic values YABC10 and chromaticity a10, b10 (left)
and these colours in the CIE chromaticity diagram
(x10, y10) and the chromatic value diagrams (Ai10, Bi10) (i=0 to 6).
CE22: Yw10=100, Ym10=520-770.
CE23: Yw10=88,6, Ym10=520-770.
CIELAB data LabC* and cube root chromaticities a', b' (left)
and these colours in the CIE chromaticity diagram
(x, y) and the chroma diagram (A*i, B*i) (i=0 bis 6).
CE24: Yw=100, Ym=520-770.
CE25: Yw=88,6, Ym=520-770.
CIE data LabC*10 cube root chromaticities a'10, b'10 (left)
and these colours in the CIE chromaticity diagram
(x10, y10) and he chroma diagram (A*i10, B*i10) (i=0 bis 6).
CE26: Yw10=100, Ym10=520-770.
CE27: Yw10=88,6, Ym10=520-770.
Ostwald optimal colours of a colour half with complementary wavelength limits
for eight CIE illuminants D65, D50, P40, A00 (A), E00 (E), C00 (C),
P00 (relative amount of quantums for equal energy),
and Q00 (necessary energy for equal amount of quanta),
see page 5 of 8 for the CIE illuminant C.
CIE data XYZ and xyz (left)
and these colours in the CIE chromaticity diagram
(x, y) and the chromaticity diagrams (ai, bi) (i=0 to 6).
CE28: Yw=100, Ym=520-770.
CE29: Yw=88,6, Ym=520-770.
CIE data XYZ10 and xyz10 (left)
and these colours in the CIE chromaticity diagram
(x10, y10) and the chromaticity diagrams (ai10, bi10) (i=0 to 6).
CE30: Yw10=100, Ym10=520-770.
CE31: Yw10=88,6, Ym10=520-770.
Chromatic values YABC and chromaticity a, b (left)
and these colours in the CIE chromaticity diagram
(x, y) and the chromatic value diagram (Ai, Bi) (i=0 to 6).
CE32: Yw=100, Ym=520-770.
CE33: Yw=88,6, Ym=520-770.
Chromatic values YABC10 and chromaticity a10, b10 (left)
and these colours in the CIE chromaticity diagram
(x10, y10) and chromatic value diagram (Ai10, Bi10) (i=0 to 6).
CE34: Yw10=100, Ym10=520-770.
CE35: Yw10=88,6, Ym10=520-770.
CIELAB data LabC* and cube root chromaticities a', b' (left)
and these colours in the CIE chromaticity diagram
(x, y) and the chroma diagram (A*i, B*i) (i=0 bis 6).
CE36: Yw=100, Ym=520-770.
CE37: Yw=88,6, Ym=520-770.
CIE data LabC*10 and cube root chromaticities a'10, b'10 (left)
and these colours in the CIE chromaticity diagram
(x10, y10) and the chroma diagrams (A*i10, B*i10) (i=0 to 6).
CE38: Yw10=100, Ym10=520-770.
CE39: Yw10=88,6, Ym10=520-770.
Cone sensitivities and excitation, and spectral tristimulus values
for eight CIE illuminants D65, D50, P40, A00 (A), E00 (E), C00 (C),
P00 (relative amount of quanta for equal energy),
and Q00 (necessary energy for equal quanta),
and for eight illuminants P60, P55, P50, P45, P40, P35, P30, P25 (6000K to 2500K).
CIE 1931 02-degree colorimetry.
Aij 1,91 -1,11 0,20 0,37 0,63 0,00 0,00 0,00 1,00
CE40: for 8 Dxx illuminants.
CE41: for 8 Pxx illuminants.
CIE 1964 10-degree colorimetry.
Aij 1,91 -1,11 0,20 0,37 0,63 0,00 0,00 0,00 1,00
CE42: for 8 Dxx illuminants.
CE43: for 8 Pxx illuminants.
CIE-LMS F02-degree colorimetry (start with XYZ data).
Aij 1,95 -1,41 0,36 0,69 0,35 0,00 0,00 0,00 1,93
CE44: for 8 Dxx illuminants.
CE45: for 8 Pxx illuminants.
CIE-LMS F10-degree colorimetry (start with XYZ data).
Aij 1,94 -1,35 0,43 0,69 0,35 0,00 0,00 0,00 2,15
CE46: for 8 Dxx illuminants.
CE47: for 8 Pxx illuminants.
LMS-CIE F02-degree colorimetry (start with LMS data).
Aij 1,95 -1,41 0,36 0,69 0,35 0,00 0,00 0,00 1,93
CE48: for 8 Dxx illuminants.
CE49: for 8 Pxx illuminants.
LMS-CIE F10-degree colorimetry (start with LMS data).
Aij 1,94 -1,35 0,43 0,69 0,35 0,00 0,00 0,00 2,15
CE50: for 8 Dxx illuminants.
CE51: for 8 Pxx illuminants.
LMS-R17M1 model colorimetry (start with LMS data).
Aij 1,93 -1,34 0,43 0,69 0,35 0,00 0,00 0,00 2,15
CE52: for 8 Dxx illuminants.
CE53: for 8 Pxx illuminants.
LMS-R17M2 model colorimetry (start with LMS data).
Aij 1,40 -0,70 0,30 0,50 0,50 0,00 0,00 0,00 1,00
CE54: for 8 Dxx illuminants.
CE55: for 8 Pxx illuminants.
LMS-R17M3 model colorimetry (start with LMS data).
Aij 1,32 -0,66 0,34 0,50 0,50 0,00 0,00 0,00 1,00
CE56: for 8 Dxx illuminants.
CE57: for 8 Pxx illuminants.
LMS-R17M4 model colorimetry (start with LMS data).
Aij 1,30 -0,65 0,35 0,50 0,50 0,00 0,00 0,00 1,00
CE58: for 8 Dxx illuminants.
CE59: for 8 Pxx illuminants.
LMS-R17M5 model colorimetry (start with LMS data).
Aij 2,64 -1,32 0,68 0,50 0,50 0,00 0,00 0,00 1,00
CE60: for 8 Dxx illuminants.
CE61: for 8 Pxx illuminants.
LMS-R17M6 model colorimetry (start with LMS data).
Aij 2,60 -1,30 0,70 0,50 0,50 0,00 0,00 0,00 1,00
CE62: for 8 Dxx illuminants.
CE63: for 8 Pxx illuminants.
Munsell colours of Chroma C=2 and Value V=1, 2, 5, 8, and 9
for the experimental Munsell chromaticity (x, y)Mex = (0,3100, 0,3244);
this chromaticity is near the chromaticity of illuminant C00;
CIE chromaticity (x, y) and 3 chromaticities (ai, bi) (i=0,1,5) (left),
3 chromatic values (Ai, Bi) (i=0,1,5) (right),
and 3 chromas (A*i, B*i) (i=0,1,5) (right).
CE64: CIE 2 degree observer and without adaptations 5Y and 5A.
MacAdam-ellipses for E00 and 2 degree observer,
OSA-colour system for D65 and 10 degree observer, samples for L=0,
Munsell-colour system for C00 and 2 degree observer,
extrapolated data and samples for V=5.
Chromaticity diagrams; 2 or 10 degree observer;
(x,y) and (ai,bi) or (x10,y10) and (a10i, b10i) (i=0,1,5).
CE65:
data or samples: MacAdam-ellipses, OSA-colour system, Munsell-colour system
Munsell colours of Chroma C=2 and Value V=1, 2, 5, 8, and 9
for the experimental Munsell chromaticity (x, y)Mex = (0,3100, 0,3244);
This chromaticity is near the chromaticity of illuminant C;
CIE chromaticity diagram (x, y), seven chromatic values diagrams (Ai, Bi) (i=0 to 6) (left)
and seven chroma diagrams (A*i, B*i) (i=0 to 6) (right).
CE66: CIE 2 degree observer and without adaptations 5Y and 5A.
CE67: CIE 2 degree observer and with adaptation 5Y.
CE68: CIE 2 degree observer and with adaptation 5A.
CE69: CIE 2 degree observer and with adaptations 5Y and 5A.
Ostwald optimal colours of a colour half with complementary wavelength limits
for eight CIE illuminants D65, D50, P40, A00 (A), E00 (E), C00 (C),
P00 (relative amount of quantums for equal energy),
and Q00 (necessary energy for equal amount of quanta),
see page 2 of 8 for the CIE illuminant D50,
calculated for colour vision system LMS_R17M3, (start with LMS data).
Aij 1,26 -0,63 0,37 0,50 0,50 0,00 0,00 0,00 1,00
CIE data XYZ and xyz (left)
and these colours in the LMS_17M3 chromaticity diagram
(x, y) and the chromaticity diagrams (ai, bi) (i=0 to 6).
CE70: Yw=100, Ym=520-770.
CE71: Yw=88,6, Ym=520-770.
Chromatic values YABC and chromaticity a, b (left)
and these colours in the LMS_17M3 chromatic value diagrams
(x, y) and the chromatic value diagram (Ai, Bi) (i=0 to 6).
CE72: Yw=100, Ym=520-770.
CE73: Yw=88,6, Ym=520-770.
Chromatic values YABC and chromaticity a, b (left)
and these colours in the LMS_17M3 chroma diagrams
(x, y) and the chroma diagrams (A*i, B*i) (i=0 to 6).
CE74: Yw=100, Ym=520-770.
CE75: Yw=88,6, Ym=520-770.
Munsell colours of Chroma C=2 and Value V=1, 2, 5, 8, and 9
for the experimental Munsell chromaticity (x, y)Mex = (0,3100, 0,3244);
This chromaticity is near the chromaticity of illuminant C;
CIE chromaticity diagram (x, y), seven chromatic values diagrams (Ai, Bi) (i=0 to 6) (left)
and seven chroma diagrams (A*i, B*i) (i=0 to 6) (right).
CE76: CIE 2 degree observer and without adaptations 5Y and 5A.
CE77: CIE 2 degree observer and with adaptation 5Y.
CE78: CIE 2 degree observer and with adaptation 5A.
CE79: CIE 2 degree observer and with adaptations 5Y and 5A.
Spectral data on the purple line for CIE illuminant E
CIE data XYZ and xyz, not normalized (left) and normalized (right) Yw=100.
tsa=0,00, CIE illuminant E.
CE80: CIE_02 observer.
CE81: CIE_10 observer.
CIE data XYZ and xyz, not normalized (left) and normalized (right) Yw=100.
tsa=0,00, CIE illuminant E.
CE82: CIE_F02 observer.
CE83: CIE_F10 observer.
LMS_17M3 model data XYZ and xyz, not normalized (left) and normalized (right) Yw=100.
CIE illuminant E, Aij 1,26 -0,63 0,37 0,50 0,50 0,00 0,00 0,00 1,00.
CE84: tsa=0,00, LMS_17M3 model observer, normalized (right) Yw=100.
CE85: tsa=0,01, LMS_17M3 model observer, normalized (right) Yw=100.
Spectral data on the purple line
for eight CIE illuminants Dxx: D65, D50, P40, A00 (A), E00 (E), C00 (C),
P00 (relative amount of quantums for equal energy),
and Q00 (necessary energy for equal amount of quanta),
see page 2 of 8 for the CIE illuminant D50.
LMS_17M3 model data XYZ and xyz, not normalized (left) and normalized (right).
8 CIE illuminants Dxx, Aij 1,26 -0,63 0,37 0,50 0,50 0,00 0,00 0,00 1,00.
CE86: tsa=0,00, normalized (right) Yw=100.
CE87: tsa=0,00, normalized (right) XYZw=100.
Chromaticity diagrams; 2 or 10 degree observer;
(x,y) and (ai,bi) or (x10,y10) and (a10i, b10i) (i=0 to 6)
MacAdam ellipses, OSA- and Munsell-colour system
CE88: 2 degree observer; illuminant E00, MacAdam-ellipses (right)
CE89: 10 degree observer; illuminant D65, OSA-colour system, lightness L=-4 (right)
CE90: 10 degree observer; illuminant D65, OSA-colour system, lightness L=0 (right)
CE91: 10 degree observer; illuminant D65, OSA-colour system, lightness L=4 (right)
CE92: 2 degree observer; illuminant C00, Munsell-colour system, lightness Value=2,
with extrapolation (left) and samples (right)
CE93: 2 degree observer; illuminant C00, Munsell-colour system, lightness Value=5,
with extrapolation (left) and samples (right)
CE94: 2 degree observer; illuminant C00, Munsell-colour system, lightness Value=8,
with extrapolation (left) and samples (right)
Munsell colours of Chroma C=2 and Value V=1, 2, 5, 8, and 9
for the experimental Munsell chromaticity (x, y)Mex = (0,3100, 0,3244);
This chromaticity is near the chromaticity of illuminant C;
CIE chromaticity diagram (x, y), seven chromaticity diagrams (ai, bi) (i=0 to 6) (left)
and seven chroma diagrams (A*i, B*i) (i=0 to 6) (right).
CE95: CIE 2 degree observer; achromatic colours (right); magnify 16x!.
CE96: CIE 2 degree observer and with adaptation 5Y.
CE97: CIE 2 degree observer and with adaptation 5Y.
CE98: CIE 2 degree observer and with adaptation 5Y.
CE99: CIE 2 degree observer and without adaptation.
Munsell colours Chroma 2, Value 1 to 9 in the CIE chromaticity diagram
(x, y)
Colour values (Ai, Bi) and chroma (A*i, B*i) (i=0 to 6)
similar to the LMS-R17Mx model colorimetry.
CE00: Yw=100, Ym=520-770.
example file (1 page, 200 KB)
CE00/CE00L0NP.PDF