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[Ben75]

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[Bre94]

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[BTS+18]

Roxana Bujack, Terece L. Turton, Francesca Samsel, Colin Ware, David H. Rogers, and James Ahrens. The good, the bad, and the ugly: a theoretical framework for the assessment of continuous colormaps. IEEE Transactions on Visualization and Computer Graphics, 24(1):923–933, 2018. doi:10.1109/TVCG.2017.2743978.

[CSH20]

Fabio Crameri, Grace E. Shephard, and Philip J. Heron. The misuse of colour in science communication. Nature Communications, 2020. URL: https://doi.org/10.1038/s41467-020-19160-7.

[Fai13]

Mark D. Fairchild. Color Appearance Models. John Wiley & Sons, Ltd, third edition edition, 2013. ISBN 9781118653128. doi:https://doi.org/10.1002/9781118653128.

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[KRHM18]

Yeon Jin Kim, Alexandre Reynaud, Robert F. Hess, and Kathy T. Mullen. A Normative Data Set for the Clinical Assessment of Achromatic and Chromatic Contrast Sensitivity Using a qCSF Approach. Investigative Ophthalmology & Visual Science, 58(9):3628–3636, 03 2018. doi:10.1167/iovs.17-21645.

[Kov15]

Peter Kovesi. Good colour maps: how to design them. 2015. arXiv:1509.03700.

[LH92]

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[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, 2017. doi:https://doi.org/10.1002/col.22131.

[MOF09]

Gustavo M. Machado, Manuel M. Oliveira, and Leandro A. F. Fernandes. A physiologically-based model for simulation of color vision deficiency. IEEE Transactions on Visualization and Computer Graphics, 15(6):1291–1298, November/December 2009.

[MMP+22]

Thomas Mansencal, Michael Mauderer, Michael Parsons, Nick Shaw, Kevin Wheatley, Sean Cooper, Jean D. Vandenberg, Luke Canavan, Katherine Crowson, Ofek Lev, Katrin Leinweber, Shriramana Sharma, Troy James Sobotka, Dominik Moritz, Matt Pppp, Chinmay Rane, Pavithra Eswaramoorthy, John Mertic, Ben Pearlstine, Manuel Leonhardt, Olli Niemitalo, Marek Szymanski, Maximilian Schambach, Sianyi Huang, Mike Wei, Nishant Joywardhan, Omar Wagih, Pawel Redman, Joseph Goldstone, Stephen Hill, Jedediah Smith, Frederic Savoir, Geetansh Saxena, Saransh Chopra, Ilia Sibiryakov, Tim Gates, Gajendra Pal, Nicolas Tessore, and Aurélien Pierre. Colour 0.4.1. 2022. URL: https://doi.org/10.5281/zenodo.6288658.

[Mor09]

Kenneth Moreland. Diverging color maps for scientific visualization (expanded). 2009. URL: https://www.kennethmoreland.com/color-maps/ColorMapsExpanded.pdf.

[Mul85]

Kathy T. Mullen. The contrast sensitivity of human colour vision to red-green and blue-yellow chromatic gratings. The Journal of Physiology, 359:381–400, 1985. doi:https://doi.org/10.1113/jphysiol.1985.sp015591.

[NAR18]

Jamie R. Nuñez, Christopher R. Anderton, and Ryan S. Renslow. Optimizing colormaps with consideration for color vision deficiency to enable accurate interpretation of scientific data. PLOS ONE, 13(7):1–14, 8 2018. URL: https://doi.org/10.1371/journal.pone.0199239, doi:10.1371/journal.pone.0199239.

[RN20]

Stuart J. Russell and Peter Norvig. Artificial Intelligence: A Modern Approach. Pearson, 4 edition, 2020.

[SvdW15]

Smith, Nathaniel J. and Stefan van der Walt. Mpl colormaps. 2015. URL: https://bids.github.io/colormap/.

[SKR99]

Ian Spence, Kutlesa, Natasha, and David L. Rose. Using color to code quantity in spatial displays. Journal of Experimental Psychology: Applied, 5(4):393–412, 1999. doi:https://doi.org/10.1037/1076-898X.5.4.393.

[Swi08]

Eugene Switkes. Contrast salience across three-dimensional chromoluminance space. Vision Research, 48(17):1812–1819, 2008. URL: https://www.sciencedirect.com/science/article/pii/S0042698908002654, doi:https://doi.org/10.1016/j.visres.2008.05.014.

[SC99]

Eugene Switkes and Michael A. Crognale. Comparison of color and luminance contrast: apples versus oranges? Vision Research, 39(10):1823–1831, 1999. doi:https://doi.org/10.1016/S0042-6989(98)00219-3.

[TGH+16]

Kristen M. Thyng, Chad A. Greene, Robert D. Hetland, Heather M. Zimmerle, and Steven F. DiMarco. True colors of oceanography: guidelines for effective and accurate colormap selection. Oceanography, 29(3):9–13, September 2016. URL: https://doi.org/10.5670/oceanog.2016.66.

[VGO+20]

Pauli Virtanen, Ralf Gommers, Travis E. Oliphant, Matt Haberland, Tyler Reddy, David Cournapeau, Evgeni Burovski, Pearu Peterson, Warren Weckesser, Jonathan Bright, Stéfan J. van der Walt, Matthew Brett, Joshua Wilson, K. Jarrod Millman, Nikolay Mayorov, Andrew R. J. Nelson, Eric Jones, Robert Kern, Eric Larson, C J Carey, İlhan Polat, Yu Feng, Eric W. Moore, Jake VanderPlas, Denis Laxalde, Josef Perktold, Robert Cimrman, Ian Henriksen, E. A. Quintero, Charles R. Harris, Anne M. Archibald, Antônio H. Ribeiro, Fabian Pedregosa, Paul van Mulbregt, and SciPy 1.0 Contributors. SciPy 1.0: Fundamental Algorithms for Scientific Computing in Python. Nature Methods, 17:261–272, 2020. doi:10.1038/s41592-019-0686-2.

[War88]

Colin Ware. Color sequences for univariate maps: theory, experiments and principles. IEEE Computer Graphics and Applications, 8(5):41–49, 1988. doi:10.1109/38.7760.

[WTB+19]

Colin Ware, Terece L. Turton, Roxana Bujack, Francesca Samsel, Piyush Shrivastava, and David H. Rogers. Measuring and modeling the feature detection threshold functions of colormaps. IEEE Transactions on Visualization and Computer Graphics, 25(9):2777–2790, 2019. doi:10.1109/TVCG.2018.2855742.

[Wil85]

David R. Williams. Aliasing in human foveal vision. Vision Research, 25(2):195–205, 1985. URL: https://www.sciencedirect.com/science/article/pii/0042698985901130, doi:https://doi.org/10.1016/0042-6989(85)90113-0.

[CommissionIdLEclairage20]

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[InternationalECommission99]

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[PythonSFoundation+22]

Python Software Foundation and others. Python. 1991–2022. URL: https://www.python.org.