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[CSH+18]

E.C. Carter, J.D. Schanda, R. Hirschler, S. Jost, M.R. Luo, M. Melgosa, Y. Ohno, M.R. Pointer, D.C. Rich, F. Vienot, L. Whitehead, and J.H. Wold. CIE 015:2018 Colorimetry, 4th Edition. Technical Report, International Commission on Illumination, Vienna, October 2018. doi:10.25039/TR.015.2018.

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[Cha15]

Peter Chamberlain. LUT documentation (to create from another program). https://forum.blackmagicdesign.com/viewtopic.php?f=21&t=40284#p232952, 2015.

[CWCR04]

Vien Cheung, Stephen Westland, David Connah, and Caterina Ripamonti. A comparative study of the characterisation of colour cameras by means of neural networks and polynomial transforms. Coloration Technology, 120(1):19–25, 2004. doi:10.1111/j.1478-4408.2004.tb00201.x.

[CB22]

Sean Cooper and Harald Brendel. ARRI LogC4 Logarithmic Color Space SPECIFICATION. 2022.

[Cot]

Russell Cottrell. The Russell RGB working color space.

[CKMW04]

Matthew Cowan, Glenn Kennel, Thomas Maier, and Brad Walker. Contrast Sensitivity Experiment to Determine the Bit Depth for Digital Cinema. SMPTE Motion Imaging Journal, 113(9):281–292, September 2004. doi:10.5594/j11549.

[CLR+02]

G. Cui, M. R. Luo, B. Rigg, G. Roesler, and K. Witt. Uniform colour spaces based on the DIN99 colour-difference formula. Color Research & Application, 27(4):282–290, 2002. doi:10.1002/col.10066.

[DFGM15]

Maryam Mohammadzadeh Darrodi, Graham Finlayson, Teresa Goodman, and Michal Mackiewicz. Reference data set for camera spectral sensitivity estimation. Journal of the Optical Society of America A, 32(3):381, March 2015. doi:10.1364/JOSAA.32.000381.

[DFH+15]

Aurelien David, Paul T. Fini, Kevin W. Houser, Yoshi Ohno, Michael P. Royer, Kevin A. G. Smet, Minchen Wei, and Lorne Whitehead. Development of the IES method for evaluating the color rendition of light sources. Optics Express, 23(12):15888, June 2015. doi:10.1364/OE.23.015888.

[DO10]

Wendy Davis and Yoshiro Ohno. Color quality scale. Optical Engineering, 49(3):033602, March 2010. doi:10.1117/1.3360335.

[DFI+17]

Scott Dyer, Alexander Forsythe, Jonathon Irons, Thomas Mansencal, and Miaoqi Zhu. RAW to ACES. 2017.

[EF98]

Fritz Ebner and Mark D. Fairchild. Finding constant hue surfaces in color space. In Giordano B. Beretta and Reiner Eschbach, editors, Proc. SPIE 3300, Color Imaging: Device-Independent Color, Color Hardcopy, and Graphic Arts III, (2 January 1998), 107–117. January 1998. doi:10.1117/12.298269.

[Erda]

U. Murat Erdem. Fast Line Segment Intersection. http://www.mathworks.com/matlabcentral/fileexchange/27205-fast-line-segment-intersection.

[Erdb]

Turan Erdogan. How to Calculate Luminosity, Dominant Wavelength, and Excitation Purity.

[FW98]

M. Fairchild and D. Wyble. Colorimetric Characterization of The Apple Studio Display (flat panel LCD). 1998.

[FC11]

Mark D Fairchild and Ping-hsu Chen. Brightness, lightness, and specifying color in high-dynamic-range scenes and images. In Susan P. Farnand and Frans Gaykema, editors, Proc. SPIE 7867, Image Quality and System Performance VIII, 78670O. January 2011. doi:10.1117/12.872075.

[FH22]

Mark D Fairchild and Luke Hellwig. Private Discussion with Mansencal, T. 2022.

[Fai]

Mark D. Fairchild. Fairchild YSh.

[Fai91]

Mark D. Fairchild. Formulation and testing of an incomplete-chromatic-adaptation model. Color Research & Application, 16(4):243–250, August 1991. doi:10.1002/col.5080160406.

[Fai96]

Mark D. Fairchild. Refinement of the RLAB color space. Color Research & Application, 21(5):338–346, October 1996. doi:10.1002/(SICI)1520-6378(199610)21:5<338::AID-COL3>3.0.CO;2-Z.

[Fai04]

Mark D. Fairchild. CIECAM02. In Color Appearance Models, pages 289–301. Wiley, 2 edition, 2004.

[Fai13a]

Mark D. Fairchild. Chromatic Adaptation Models. In Color Appearance Models, pages 4179–4252. Wiley, 3 edition, 2013.

[Fai13b]

Mark D. Fairchild. The Hunt Model. In Color Appearance Models, pages 5094–5556. Wiley, 3 edition, 2013.

[Fai13c]

Mark D. Fairchild. The Nayatani et al. Model. In Color Appearance Models, pages 4810–5085. Wiley, 3 edition, 2013.

[Fai13d]

Mark D. Fairchild. The RLAB Model. In Color Appearance Models, pages 5563–5824. Wiley, 3 edition, 2013.

[Fai13e]

Mark D. Fairchild. ATD Model. In Color Appearance Models, pages 5852–5991. Wiley, 3 edition, 2013.

[Fai13f]

Mark D. Fairchild. FAIRCHILD'S 1990 MODEL. In Color Appearance Models, pages 4418–4495. Wiley, 3 edition, 2013.

[Fai13g]

Mark D. Fairchild. IPT Colourspace. In Color Appearance Models, pages 6197–6223. Wiley, 3 edition, 2013.

[Fai13h]

Mark D. Fairchild. LLAB Model. In Color Appearance Models, pages 6025–6178. Wiley, 3 edition, 2013.

[Fai20]

Mark D. Fairchild. Von Kries 2020: Evolution of degree of chromatic adaptation. Color and Imaging Conference, 28(1):252–257, November 2020. doi:10.2352/issn.2169-2629.2020.28.40.

[FW10]

Mark D. Fairchild and David R. Wyble. Hdr-CIELAB and hdr-IPT: Simple Models for Describing the Color of High-Dynamic-Range and Wide-Color-Gamut Images. In Proc. of Color and Imaging Conference, 322–326. 2010.

[Fai85]

Hugh S. Fairman. The calculation of weight factors for tristimulus integration. Color Research & Application, 10(4):199–203, 1985. doi:10.1002/col.5080100407.

[FBH97]

Hugh S. Fairman, Michael H. Brill, and Henry Hemmendinger. How the CIE 1931 color-matching functions were derived from Wright-Guild data. Color Research & Application, 22(1):11–23, February 1997. doi:10.1002/(SICI)1520-6378(199702)22:1<11::AID-COL4>3.0.CO;2-7.

[FPW21]

missing journal in Fichet2021

[FMH15]

Graham D. Finlayson, Michal MacKiewicz, and Anya Hurlbert. Color Correction Using Root-Polynomial Regression. IEEE Transactions on Image Processing, 24(5):1460–1470, May 2015. doi:10.1109/TIP.2015.2405336.

[For18]

Alex Forsythe. Private Discussion with Mansencal, T. 2018.

[Frohlich17]

Jan Fröhlich. Encoding high dynamic range and wide color gamut imagery. 2017.

[GDY+]

Hugo Gaggioni, Patel Dhanendra, Jin Yamashita, N. Kawada, K. Endo, and Curtis Clark. S-Log: A new LUT for digital production mastering and interchange applications.

[GarciaHMC07]

Pedro A. García, Rafael Huertas, Manuel Melgosa, and Guihua Cui. Measurement of the relationship between perceived and computed color differences. Journal of the Optical Society of America A, 24(7):1823, July 2007. doi:10.1364/JOSAA.24.001823.

[GMRS58]

L. G. Glasser, A. H. McKinney, C. D. Reilly, and P. D. Schnelle. Cube-Root Color Coordinate System. Journal of the Optical Society of America, 48(10):736, October 1958. doi:10.1364/JOSA.48.000736.

[Gut95]

S. Lee Guth. Further applications of the ATD model for color vision. In Eric Walowit, editor, Proc. SPIE 2414, Device-Independent Color Imaging II, volume 2414, 12–26. April 1995. doi:10.1117/12.206546.

[HF98]

Radim Halir and Jan Flusser. Numerically Stable Direct Least Squares Fitting Of Ellipses. 1998. doi:10.1.1.1.7559.

[Han03]

Allan Hanbury. A 3D-Polar Coordinate Colour Representation Well Adapted to Image Analysis. In Josef Bigun and Tomas Gustavsson, editors, Image Analysis, 804–811. Berlin, Heidelberg, 2003. Springer Berlin Heidelberg.

[HF20]

Luke Hellwig and Mark D. Fairchild. Using Gaussian Spectra to Derive a Hue-linear Color Space. Journal of Perceptual Imaging, 2020. doi:10.2352/J.Percept.Imaging.2020.3.2.020401.

[HF22]

Luke Hellwig and Mark D. Fairchild. Brightness, lightness, colorfulness, and chroma in \textsc CIECAM02 and \textsc CAM16. Color Research & Application, pages col.22792, March 2022. doi:10.1002/col.22792.

[HSF22]

Luke Hellwig, Dale Stolitzka, and Mark D. Fairchild. Extending CIECAM02 and CAM16 for the Helmholtz–Kohlrausch effect. Color Research & Application, pages col.22793, June 2022. doi:10.1002/col.22793.

[Hol]

Joseph Holmes. Ekta Space PS 5.

[Hou15]

Jim Houston. Private Discussion with Mansencal, T. 2015.

[HCM+15]

Min Huang, Guihua Cui, Manuel Melgosa, Manuel Sánchez-Marañón, Changjun Li, M. Ronnier Luo, and Haoxue Liu. Power functions improving the performance of color-difference formulas. Optical Society of America, 23(1):597–610, 2015. doi:10.1364/OE.23.000597.

[HB95]

Po-Chieh Hung and Roy S. Berns. Determination of constant Hue Loci for a CRT gamut and their predictions using color appearance spaces. Color Research & Application, 20(5):285–295, October 1995. doi:10.1002/col.5080200506.

[Hun04]

R.W.G. Hunt. The Reproduction of Colour. John Wiley & Sons, Ltd, Chichester, UK, 6 edition, September 2004. ISBN 978-0-470-02427-0. doi:10.1002/0470024275.

[JH19]

Wenzel Jakob and Johannes Hanika. A Low-Dimensional Function Space for Efficient Spectral Upsampling. Computer Graphics Forum, 38(2):147–155, May 2019. doi:10.1111/cgf.13626.

[JLGS13]

Jun Jiang, Dengyu Liu, Jinwei Gu, and Sabine Susstrunk. What is the space of spectral sensitivity functions for digital color cameras? In 2013 IEEE Workshop on Applications of Computer Vision (WACV), 168–179. IEEE, January 2013. doi:10.1109/WACV.2013.6475015.

[KMH+02]

Bongsoon Kang, Ohak Moon, Changhee Hong, Honam Lee, Bonghwan Cho, and Youngsun Kim. Design of advanced color: Temperature control system for HDTV applications. Journal of the Korean Physical Society, 41(6):865–871, 2002.

[KPK11]

Paul Kienzle, Nikunj Patel, and James Krycka. Refl1d.numpyerrors - Refl1D v0.6.19 documentation. http://www.reflectometry.org/danse/docs/refl1d/_modules/refl1d/numpyerrors.html, 2011.

[KWK09]

Mh Kim, T Weyrich, and J Kautz. Modeling Human Color Perception under Extended Luminance Levels. ACM Transactions on Graphics, 28(3):27:1–27:9, 2009. doi:10.1145/1531326.1531333.

[Kir06]

Richard Kirk. Truelight Software Library 2.0. 2006.

[Kir19]

Richard A. Kirk. Chromaticity coordinates for graphic arts based on CIE 2006 LMS with even spacing of Munsell colours. Color and Imaging Conference, 27(1):215–219, October 2019. doi:10.2352/issn.2169-2629.2019.27.38.

[Kon21]

Ivan A. Konovalenko. proLab_param.m. 2021.

[KSNN21]

Ivan A. Konovalenko, Anna A. Smagina, Dmitry P. Nikolaev, and Petr P. Nikolaev. ProLab: perceptually uniform projective colour coordinate system. arXiv:2012.07653 [cs], January 2021. arXiv:2012.07653.

[Kry85]

M Krystek. An algorithm to calculate correlated colour temperature. Color Research & Application, 10(1):38–40, 1985. doi:10.1002/col.5080100109.

[LLW+17]

Changjun Li, Zhiqiang Li, Zhifeng Wang, Yang Xu, Ming Ronnier Luo, Guihua Cui, Manuel Melgosa, Michael H Brill, and Michael Pointer. Comprehensive color solutions: CAM16, CAT16, and CAM16-UCS. Color Research & Application, 42(6):703–718, December 2017. doi:10.1002/col.22131.

[LLRH02]

Changjun Li, Ming Ronnier Luo, Bryan Rigg, and Robert W. G. Hunt. CMC 2000 chromatic adaptation transform: CMCCAT2000. Color Research & Application, 27(1):49–58, February 2002. doi:10.1002/col.10005.

[LPLMartinezverdu07]

Changjun Li, Esther Perales, Ming Ronnier Luo, and Francisco Martinez-verdu. The Problem with CAT02 and Its Correction. 2007.

[Lin03a]

Bruce Lindbloom. Delta E (CIE 1976). http://brucelindbloom.com/Eqn_DeltaE_CIE76.html, 2003.

[Lin03b]

Bruce Lindbloom. XYZ to xyY. http://www.brucelindbloom.com/Eqn_XYZ_to_xyY.html, 2003.

[Lin07]

Bruce Lindbloom. Spectral Power Distribution of a CIE D-Illuminant. http://www.brucelindbloom.com/Eqn_DIlluminant.html, 2007.

[Lin09a]

Bruce Lindbloom. Chromatic Adaptation. http://brucelindbloom.com/Eqn_ChromAdapt.html, 2009.

[Lin09b]

Bruce Lindbloom. Delta E (CMC). http://brucelindbloom.com/Eqn_DeltaE_CMC.html, 2009.

[Lin09c]

Bruce Lindbloom. xyY to XYZ. http://www.brucelindbloom.com/Eqn_xyY_to_XYZ.html, 2009.

[Lin11]

Bruce Lindbloom. Delta E (CIE 1994). http://brucelindbloom.com/Eqn_DeltaE_CIE94.html, 2011.

[Lin14]

Bruce Lindbloom. RGB Working Space Information. http://www.brucelindbloom.com/WorkingSpaceInfo.html, 2014.

[Lin15]

Bruce Lindbloom. About the Lab Gamut. http://www.brucelindbloom.com/LabGamutDisplayHelp.html, 2015.

[LPY+16]

Taoran Lu, Fangjun Pu, Peng Yin, Tao Chen, Walt Husak, Jaclyn Pytlarz, Robin Atkins, Jan Froehlich, and Guan-Ming Su. ITP Colour Space and Its Compression Performance for High Dynamic Range and Wide Colour Gamut Video Distribution. ZTE Communications, 14(1):32–38, 2016.

[LCL06]

M. Ronnier Luo, Guihua Cui, and Changjun Li. Uniform colour spaces based on CIECAM02 colour appearance model. Color Research & Application, 31(4):320–330, August 2006. doi:10.1002/col.20227.

[LR99]

M. Ronnier Luo and Peter A. Rhodes. Corresponding-colour datasets. Color Research & Application, 24(4):295–296, August 1999. doi:10.1002/(SICI)1520-6378(199908)24:4<295::AID-COL10>3.0.CO;2-K.

[Luo24]

Ming Ronnier Luo. The new preferred memory color ( \textsc PMC ) chart. Color Research & Application, pages col.22940, May 2024. doi:10.1002/col.22940.

[LL13]

Ming Ronnier Luo and Changjun Li. CIECAM02 and Its Recent Developments. In Christine Fernandez-Maloigne, editor, Advanced Color Image Processing and Analysis, pages 19–58. Springer New York, New York, NY, 2013. doi:10.1007/978-1-4419-6190-7.

[LLK96]

Ming Ronnier Luo, Mei-Chun Lo, and Wen-Guey Kuo. The LLAB (l:c) colour model. Color Research & Application, 21(6):412–429, December 1996. doi:10.1002/(SICI)1520-6378(199612)21:6<412::AID-COL4>3.0.CO;2-Z.

[LM96]

Ming Ronnier Luo and Ján Morovic. Two Unsolved Issues in Colour Management - Colour Appearance and Gamut Mapping. In Conference: 5th International Conference on High Technology: Imaging Science and Technology – Evolution & Promise, 136–147. 1996.

[Mac35]

David L. MacAdam. Maximum Visual Efficiency of Colored Materials. Journal of the Optical Society of America, 25(11):361–367, November 1935. doi:10.1364/JOSA.25.000361.

[Mac42]

David L. Macadam. Visual Sensitivities to Color Differences in Daylight. Journal of the Optical Society of America, 32(5):28, 1942. doi:10.1364/JOSA.32.000247.

[MOF09]

G.M. Machado, M.M. Oliveira, and L. Fernandes. A Physiologically-based Model for Simulation of Color Vision Deficiency. IEEE Transactions on Visualization and Computer Graphics, 15(6):1291–1298, November 2009. doi:10.1109/TVCG.2009.113.

[Mac10]

Gustavo Mello Machado. A model for simulation of color vision deficiency and a color contrast enhancement technique for dichromats. 2010.

[MY19]

Ian Mallett and Cem Yuksel. Spectral Primary Decomposition for Rendering with sRGB Reflectance. Eurographics Symposium on Rendering - DL-only and Industry Track, pages 7 pages, 2019. doi:10.2312/SR.20191216.

[MS03]

Henrique Malvar and Gary Sullivan. YCoCg-R: A Color Space with RGB Reversibility and Low Dynamic Range. 2003.

[Mana]

Thomas Mansencal. Lookup.

[Manb]

Thomas Mansencal. Structure.

[Man15]

Thomas Mansencal. RED Colourspaces Derivation. https://www.colour-science.org/posts/red-colourspaces-derivation, 2015.

[Man18]

Thomas Mansencal. How is the visible gamut bounded? https://stackoverflow.com/a/48396021/931625, 2018.

[Man19]

Thomas Mansencal. Colour - Datasets. 2019. doi:10.5281/zenodo.3362520.

[Mel13]

Manuel Melgosa. CIE / ISO new standard: CIEDE2000. 2013.

[MSHD15]

Johannes Meng, Florian Simon, Johannes Hanika, and Carsten Dachsbacher. Physically Meaningful Rendering using Tristimulus Colours. Computer Graphics Forum, 34(4):31–40, July 2015. doi:10.1111/cgf.12676.

[Mil14]

Scott Miller. A Perceptual EOTF for Extended Dynamic Range Imagery. 2014.

[MT11]

Wojciech Mokrzycki and Maciej Tatol. Color difference Delta E - A survey. Machine Graphics and Vision, 20:383–411, April 2011.

[Mor03]

Nathan Moroney. A Radial Sampling of the OSA Uniform Color Scales. Color and Imaging Conference, 2003(1):175–180, 2003.

[MFH+02]

Nathan Moroney, Mark D. Fairchild, Robert W. G. Hunt, Changjun Li, Ming Ronnier Luo, and Todd Newman. The CIECAM02 color appearance model. Color and Imaging Conference, pages 23–27, 2002.

[MorovivcL00]

Ján Morovič and M. Ronnier Luo. Calculating medium and image gamut boundaries for gamut mapping. Color Research and Application, 25(6):394–401, 2000. doi:10.1002/1520-6378(200012)25:63.0.CO;2-Y.

[Nat16]

Graeme Nattress. Private Discussion with Shaw, N. 2016.

[Nay97]

Yoshinobu Nayatani. Simple estimation methods for the Helmholtz—Kohlrausch effect. Color Research & Application, 22(6):385–401, 1997. doi:10.1002/(SICI)1520-6378(199712)22:6<385::AID-COL6>3.0.CO;2-R.

[NSY95]

Yoshinobu Nayatani, Hiroaki Sobagaki, and Kenjiro Hashimoto Tadashi Yano. Lightness dependency of chroma scales of a nonlinear color-appearance model and its latest formulation. Color Research & Application, 20(3):156–167, June 1995. doi:10.1002/col.5080200305.

[NNJ43]

Sidney M. Newhall, Dorothy Nickerson, and Deane B. Judd. Final Report of the OSA Subcommittee on the Spacing of the Munsell Colors. Journal of the Optical Society of America, 33(7):385, July 1943. doi:10.1364/JOSA.33.000385.

[Ohn05]

Yoshi Ohno. Spectral design considerations for white LED color rendering. Optical Engineering, 44(11):111302, 2005. doi:10.1117/1.2130694.

[Ohn14]

Yoshiro Ohno. Practical Use and Calculation of CCT and Duv. LEUKOS, 10(1):47–55, January 2014. doi:10.1080/15502724.2014.839020.

[OD08]

Yoshiro Ohno and Wendy Davis. NIST CQS simulation. 2008.

[OD13]

Yoshiro Ohno and Wendy Davis. NIST CQS simulation. 2013.

[Oht97]

N. Ohta. The basis of color reproduction engineering. 1997.

[OYH18]

H. Otsu, M. Yamamoto, and T. Hachisuka. Reproducing Spectral Reflectances From Tristimulus Colours. Computer Graphics Forum, 37(6):370–381, September 2018. doi:10.1111/cgf.13332.

[Ott20]

Björn Ottosson. A perceptual color space for image processing. https://bottosson.github.io/posts/oklab/, 2020.

[Poi80]

Michael R. Pointer. Pointer's Gamut Data. 1980.

[RF21]

Luvin Munish Ragoo and Ivar Farup. Optimising a Euclidean Colour Space Transform for Colour Order and Perceptual Uniformity. Color and Imaging Conference, 29(1):282–287, November 2021. doi:10.2352/issn.2169-2629.2021.29.282.

[Rak17]

Herilalaina Rakotoarison. Bunch. March 2017.

[SCKL17]

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Society of Motion Picture and Television Engineers. ST 428-1:2019 - D-Cinema Distribution Master — Image Characteristic. 2019. doi:10.5594/SMPTE.ST428-1.2019.

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Sony Corporation. S-Gamut3_S-Gamut3Cine_Matrix.xlsx.

[SonyCorporationb]

Sony Corporation. S-Log Whitepaper.

[SonyCorporationc]

Sony Corporation. Technical Summary for S-Gamut3.Cine/S-Log3 and S-Gamut3/S-Log3.

[SonyCorporation12]

Sony Corporation. S-Log2 Technical Paper. 2012.

[SonyECorporation20a]

Sony Electronics Corporation. IDT.Sony.Venice_SLog3_SGamut3Cine.ctl. 2020.

[SonyECorporation20b]

Sony Electronics Corporation. IDT.Sony.Venice_SLog3_SGamut3.ctl. 2020.

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Sony Imageworks. Make.py. https://github.com/imageworks/OpenColorIO-Configs/blob/master/nuke-default/make.py, 2012.

[TheAoMPAaSciences20]

The Academy of Motion Picture Arts and Sciences. Academy Spectral Similarity Index (SSI): Overview. 2020.

[TheAoMPAaSciences23]

The Academy of Motion Picture Arts and Sciences. IDT.Apple.AppleLog_BT2020.ctl. 2023.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommitteea]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Academy Color Encoding System. http://www.oscars.org/science-technology/council/projects/aces.html.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommitteeb]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. ACESutil.Lin_to_Log2_param.ctl. https://github.com/ampas/aces-dev/blob/518c27f577e99cdecfddf2ebcfaa53444b1f9343/transforms/ctl/utilities/ACESutil.Lin_to_Log2_param.ctl.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommitteec]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. ACESutil.Log2_to_Lin_param.ctl. https://github.com/ampas/aces-dev/blob/518c27f577e99cdecfddf2ebcfaa53444b1f9343/transforms/ctl/utilities/ACESutil.Log2_to_Lin_param.ctl.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommittee13]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Specification S-2013-001 - ACESproxy, an Integer Log Encoding of ACES Image Data. 2013.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommittee14a]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Specification S-2014-003 - ACEScc, A Logarithmic Encoding of ACES Data for use within Color Grading Systems. 2014.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommittee14b]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Technical Bulletin TB-2014-004 - Informative Notes on SMPTE ST 2065-1 - Academy Color Encoding Specification (ACES). 2014.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommittee14c]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Technical Bulletin TB-2014-012 - Academy Color Encoding System Version 1.0 Component Names. 2014.

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The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Procedure P-2013-001 - Recommended Procedures for the Creation and Use of Digital Camera System Input Device Transforms (IDTs). 2015.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESPSubcommittee20]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Specification S-2014-006 - Common LUT Format (CLF) - A Common File Format for Look-Up Tables. 2020.

[TheAoMPAaSciencesScienceaTCouncilAcademyCESACESProject16]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project. Specification S-2016-001 - ACEScct, A Quasi-Logarithmic Encoding of ACES Data for use within Color Grading Systems. http://j.mp/S-2016-001, 2016.

[TheAoMPAaSciencesScienceandTCouncilAcademyCESACESPSubcommittee15]

The Academy of Motion Picture Arts and Sciences, Science and Technology Council, and Academy Color Encoding System (ACES) Project Subcommittee. Specification S-2014-004 - ACEScg - A Working Space for CGI Render and Compositing. 2015.

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Vincent J. Is there any numpy group by function? https://stackoverflow.com/a/43094244, 2017.

[W3C22]

W3C. CSS Color Module Level 3. 2022.

[Wikipedia]

Wikipedia. Ellipse. https://en.wikipedia.org/wiki/Ellipse.

[Wikipedia01a]

Wikipedia. Approximation. http://en.wikipedia.org/wiki/Color_temperature#Approximation, 2001.

[Wikipedia01b]

Wikipedia. Color temperature. http://en.wikipedia.org/wiki/Color_temperature, 2001.

[Wikipedia01c]

Wikipedia. Luminance. https://en.wikipedia.org/wiki/Luminance, 2001.

[Wikipedia01d]

Wikipedia. Rayleigh scattering. http://en.wikipedia.org/wiki/Rayleigh_scattering, 2001.

[Wikipedia03a]

Wikipedia. Lagrange polynomial - Definition. https://en.wikipedia.org/wiki/Lagrange_polynomial#Definition, 2003.

[Wikipedia03b]

Wikipedia. Luminosity function. https://en.wikipedia.org/wiki/Luminosity_function#Details, 2003.

[Wikipedia03c]

Wikipedia. Mean squared error. https://en.wikipedia.org/wiki/Mean_squared_error, 2003.

[Wikipedia03d]

Wikipedia. Michaelis-Menten kinetics. https://en.wikipedia.org/wiki/Michaelis%E2%80%93Menten_kinetics, 2003.

[Wikipedia03e]

Wikipedia. Rayleigh–Jeans law. https://en.wikipedia.org/wiki/Rayleigh–Jeans_law, 2003.

[Wikipedia03f]

Wikipedia. Vandermonde matrix. https://en.wikipedia.org/wiki/Vandermonde_matrix, 2003.

[Wikipedia03g]

Wikipedia. HSL and HSV. http://en.wikipedia.org/wiki/HSL_and_HSV, 2003.

[Wikipedia04a]

Wikipedia. Peak signal-to-noise ratio. https://en.wikipedia.org/wiki/Peak_signal-to-noise_ratio, 2004.

[Wikipedia04b]

Wikipedia. Surfaces. http://en.wikipedia.org/wiki/Gamut#Surfaces, 2004.

[Wikipedia04c]

Wikipedia. Whiteness. http://en.wikipedia.org/wiki/Whiteness, 2004.

[Wikipedia04d]

Wikipedia. Wide-gamut RGB color space. http://en.wikipedia.org/wiki/Wide-gamut_RGB_color_space, 2004.

[Wikipedia04e]

Wikipedia. YCbCr. https://en.wikipedia.org/wiki/YCbCr, 2004.

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Wikipedia. Lanczos resampling. https://en.wikipedia.org/wiki/Lanczos_resampling, 2005.

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Wikipedia. Luminous Efficacy. https://en.wikipedia.org/wiki/Luminous_efficacy, 2005.

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Wikipedia. Mesopic weighting function. http://en.wikipedia.org/wiki/Mesopic_vision#Mesopic_weighting_function, 2005.

[Wikipedia05d]

Wikipedia. CIE 1931 color space. http://en.wikipedia.org/wiki/CIE_1931_color_space, 2005.

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Wikipedia. ISO 31-11. https://en.wikipedia.org/wiki/ISO_31-11, 2005.

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Wikipedia. List of common coordinate transformations. http://en.wikipedia.org/wiki/List_of_common_coordinate_transformations, 2006.

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Wikipedia. White points of standard illuminants. http://en.wikipedia.org/wiki/Standard_illuminant#White_points_of_standard_illuminants, 2006.

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Wikipedia. Lightness. http://en.wikipedia.org/wiki/Lightness, 2007.

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Wikipedia. The reverse transformation. http://en.wikipedia.org/wiki/CIELUV#The_reverse_transformation, 2007.

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Wikipedia. CAT02. http://en.wikipedia.org/wiki/CIECAM02#CAT02, 2007.

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Wikipedia. CIECAM02. http://en.wikipedia.org/wiki/CIECAM02, 2007.

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Wikipedia. CIELUV. http://en.wikipedia.org/wiki/CIELUV, 2007.

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Wikipedia. Color difference. http://en.wikipedia.org/wiki/Color_difference, 2008.

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Wikipedia. Relation to CIE XYZ. http://en.wikipedia.org/wiki/CIE_1960_color_space#Relation_to_CIE_XYZ, 2008.

[Wikipedia08c]

Wikipedia. CIE 1960 color space. http://en.wikipedia.org/wiki/CIE_1960_color_space, 2008.

[Wikipedia08d]

Wikipedia. CIE 1964 color space. http://en.wikipedia.org/wiki/CIE_1964_color_space, 2008.

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Wikipedia. HCL color space. https://en.wikipedia.org/wiki/HCL_color_space, 2015.

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X-Rite. New color specifications for ColorChecker SG and Classic Charts. http://xritephoto.com/ph_product_overview.aspx?ID=938&Action=Support&SupportID=5884#, 2016.

[XRitePantone12]

X-Rite and Pantone. Color iQC and Color iMatch Color Calculations Guide. 2012.

Indirect References#

Some extra references used in the codebase but not directly part of the public api: