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You can achieve Foveon-like images with deep colors and crisp individual pixels with your conventional (Bayer) camera. However, this comes at the price of losing 75% of your megapixels and having to work experimentally and outside the comfort zone of your camera manufacturer’s color science.
Owners of Foveon and 3-chip video cameras swear by their camera’s color reproduction, and for good reason. Other, conventional digital camera sensors can’t see true colors, but only record monochrome red, blue, and green pixels. In other words, a 24-megapixel camera with a conventional (Bayer) sensor doesn’t really record 24 million color pixels, but 6 million monochrome red, 6 million monochrome blue and 12 million monochrome green pixels.
The colors we see in the final 24 megapixel image were algorithmically guessed from this monochrome pixel grid. Foveon and 3-chip cameras, on the other hand, record true colors per pixel because their sensors can see red, blue and green simultaneously. Since no algorithmic reconstruction is required for the recorded pixels, both their color reproduction and per-pixel sharpness are unique.
But we can achieve a working equivalent of true color pixel capture for conventional Bayer sensor cameras – if we are willing to sacrifice megapixels in the final image. The idea is strikingly simple: If we don’t treat the four monochrome red + green + green + blue pixels of a Bayer sensor as four individual pixels, but mix them down into a single pixel, then that pixel will have true color, not the reconstructed color of conventional debayering and its algorithmic guesswork. Maybe no one has seriously considered this alternative approach yet because photographers wouldn’t have sacrificed their megapixels in the past. Nowadays, where 24-48 megapixels cameras are the norm, this alternative method comes with fewer drawbacks. 6-12 megapixel images can still be very usable.
This alternative process can be done quite easily with the Open Source software programs RawTherapee and Gimp or Darktable. Of course, it not only bypasses conventional raw debayering, but also camera manufacturer’s color science. Instead, we now create our own completely DIY raw processing and color science. (Note that this process only works for Bayer sensor cameras, not Fujifilm X-Trans cameras whose red/green/blue sensor filter pattern is larger than 4×4 pixels).
Workflow with RawTherapee and Gimp
Applying the neutral image profile in RawTherapee
Launch RawTherapee. Use the “File Browser” (top tab in the upper left corner of the screen) and go to the folder with the raw image you want to process. Double-click the thumbnail of the image on the right to open it in the editor. Right-click on the thumbnail in the scroll bar at the top of the screen and select “Processing Profile Operations -> Apply -> (Neutral)”. This will turn off all image processing except debayering and camera white balance.
Turning off Debayering
Next, we turn off debayering: On the right side, we click on the “Raw” tab (second last icon, showing a square pixel pattern) and under “Demosaicing” select as “Method” the very last entry in the pop-up list: “None (Shows sensor pattern)”.
Now the image is displayed in its raw sensor pattern. If we zoom all the way into the image with the “+” key, we can see it on the computer monitor:
Raw sensor pattern displayed
We switch to the Color tab (third icon in the right window, keyboard shortcut “Alt-c”) and turn on the “Channel Mixer”. In the “Green Channel” we decrease the value of the middle slider (the one with the green icon on the left) from 100.0 to 40.0. Our image is now ready to be exported.
Channel mixer adjustment in RawTherapee
By the way, you can save all these settings as a custom profile (e.g. “Undebayered RGB”) and use it instead of the “(Neutral)” profile in the future to save yourself manual work.
Image format setting for RawTherapee’s Queue
On the left pane, we go to the “Queue” tab and configure it as follows:
- Auto Start: on
- Save to folder: [folder where you want to save the image].
- File format: TIFF 32bit float
- Leave “Uncompressed TIFF” and “Save parameters with image” unchecked.
Exporting the image in RawTherapee
On the left pane we return to the editor (last icon, Ctrl-F4), right-click on the thumbnail of the image at the top and select “Put to queue”. Now the image will be exported as a TIFF file with maximum color depth.
We launch Gimp and open the exported TIFF:
Exported image opened in Gimp
If we zoom all the way in, we see the red-green-green-blue sensor pattern again. Now we go to the menu item “-> Image -> Scale Image”, set the scale factor to 50% and the interpolation to “Linear” and click on the “Scale” button:
Image scaling settings in Gimp
Now we have obtained a “Foveon-like” full color image. We choose “-> File -> Export as” to save it again as a TIFF, either overwriting the original file or saving it under a new name.
The image now looks underexposed (because we lowered the green channel) and probably has a color tint:
Uncorrected image
If you are familiar with The Gimp, you can make all the remaining image corrections (white balance, exposure, and contrast adjustment) in that program. Otherwise, it is more convenient to do these in your favorite image editing program.
When we return to RawTherapee and edit the TIFF image exported by Gimp there, it will appear as an HDR image in the thumbnail navigation panel:
Alternative workflow with Darktable
Darktable can also output undebayered images and even downscale them during export, so that the roundtrip via Gimp is no longer necessary.
Making the right image settings may be a bit more difficult at first:
- In the “lighttable” tab, import an image by clicking the “add to library” button in the upper left corner.
- On the right pane, search the “demosaic” module and set the demosaic method to “photosite color (debug)”:
Turning off debayering in Darktable
- On the right pane, search the “color calibration” module and reduce the green values by setting “input G” to -25.
Dialing down green
- In the right pane, click the second button that looks like a power button and turn off all other active modules (especially “base curve”) except “white balance”.
- Go back to the “lighttable” tab and click on the “export” settings on the right. Under “format options” set the file format to “TIFF (8/16/32-bit)” and the bit depth to “32-bit (float)”, and under “global options” set the size to “by scale (for file)” and enter the value 0.5. Set “high quality resampling” to “yes”. Then scroll down and click the “export” button.
- If you want to make the final image corrections in Darktable, reimport the exported TIFF file.
Results
After exposure and white balance correction, we get images like those below. In each instance, the “Before” image is the standard Bayer image while the “After” is using this Foveon-like processing technique, scaled down to 50% of original dimensions.
Takeaways
It can be difficult to compare results because in the “Foveon-like” process we completely bypass the camera manufacturer’s color science (and color calibration). In most cases, we simply get other kinds of colors. It’s similar to shooting two completely different film stocks with an analog still camera, such as negative film (traditional debayering) and slide film (our DIY Foveon-like RGB downsampling process).
Comparing the same camera images that were (a) conventionally debayered and downscaled by 50% and (b) RGB downscaled in our DIY “Foveon-like” process, the following differences become clear:
- The “Foveon-like” images generally have sharper edges and details (for example, in hair). However, the edges can be jaggier and have false color fringes (especially when they were shot with cameras that have no antialiasing filter in front of the sensor).
- The “Foveon-like” images tend to have better color differentiation and contrast, especially when the subject contains small, neighboring objects with different colors or shades of color. This is particularly evident when photographing grass, where conventional debayering produces an almost monochromatic green, while the alternative process better differentiates the green of leaves from the reddish brown of trunks.
- The improved color resolution comes at the cost of higher image noise and poorer roll-off of clipped highlights (since no raw reconstruction of clipped color channels is possible). You also can end up getting pink clipped highlights.
Owners of real Foveon cameras might find some of the above features and issues familiar, especially when they process their raw pictures with third-party software.
For the future, it would be great if this alternative RGB downsampling method could be provided directly in software applications (for example, as part of libraw, the Open Source debayering engine of RawTherapee and Darktable).
About the Author
Florian Cramer is an artist, photographer and filmmaker based in Rotterdam, Netherlands. Florian teaches at the Wllem de Koonig Academy in Rotterdam and has written and co-authored a number of books on various art and design topics. You can find out more about Florian on his website and browse his many video creations on Vimeo.
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