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how to characterise the colour response of your camera

vkdt mainly uses the D65 colour matrix for this. it is extracted from the metadata shipped with the raw file.

more colour accuracy can be gained by:

  • using a better input lut profile/clut
  • performing colour correction with a target such as a ColorChecker

using colour profiles/luts

more accurate spectral input profiles can be created if you have spectral response functions of the colour filter array. if you don't, vkdt ships a tool to reconstruct plausible curves which will still behave better than the matrix: gamut boundaries will be handled gracefully without creating imaginary stimuli/negative energy, and interpolation of the input transform for white balancing can be performed more accurately. this interpolation will show as a temperature slider in the colour module. it is similar in spirit to the interpolation done in adobe DCP profiles.

the processing of all of this is done in the colour module and the documentation for the tool to create spectral lookup tables is found here. in short, it creates a spectral lut from a DCP profile or the same data embedded in a DNG file.

tl;dr:

vkdt-mkssf your.dcp
vkdt-mkclut <camera model>

there are a few options for the optimisation process involved here and there is an instructive report printed as html.

contributing an input profile lut

once you created a lut, are happy with the results and want to share with others, please submit a pull request to the camconst data repository!

using a colour checker

sometimes you don't have spectral data for your cfa nor a dcp profile or a dng that contains the good information. but maybe you own a colour checker with 24 patches? in this case you can take a picture of one, and crop it to fill the frame, like so:

cc-in

you can use the perspective correction in the crop module to make it stand upright in the frame. the little angle brackets printed on the checker should mark the corners of the frame now.

you'll notice it looks a little blueish. from this picture, you can create a correction function (via radial basis functions) that will map all the 24 patches exactly to their reference value. for this, we'll need to pick the patches and we'll need the reference values. for both of these tasks, vkdt comes with the ColorChecker.pst and the SpyderChecker24.pst preset (you can create your own from an argyll .cht file with the vkdt scanin tool). if you press ctrl-p in darkroom mode this will trigger the default hotkey for applying a preset, so you can select ColorChecker.pst.

this preset contains the spot positions and reference values from the ColorChecker.cht shipped with argyll. your graph should now contain a pick:target module connected like so:

pick-graph

make sure you left the parameters of the colour module at their default before doing this. in particular leave mode at no rbf, or else the colour picker will not grab vanilla source values now.

you should see the picker grabbed colours like these:

pick-ui

if that is the case it's now safe to leave the grab combo box at only on change.

you can now use these patches for correction in the colour module. for this, use the import button in the colour module's ui. make sure the argument is set to target which is the instance id of your colour picker.

if you now set the mode in the colour module to use rbf, you should see the corrected output in the main window and an indication of the corrected patches in the ui of the module, like so:

cc-out

if you have done this for a specific lighting for a certain shoot, you can now copy/paste the settings of the colour module to several images. it may be a good idea to create a temporary preset for this (default: ctrl-o, and then select only the parameters to the colour module) so you can quickly apply it to other images. you can also remove the pick module again now and simply use ctrl-c ctrl-v in lighttable mode.