i thought and thought about what tony presented, and i guess i have the following comments. obviously he knows what he is doing, but he's been doing years of deep sky imaging with a CCD and photoshop.
1) he's using a state of the art canon full-frame sensor camera (6D), which has been modified for Ha transmission, from a very dark site. i think that this is the main reason why his images turned out so well.
2) he described the dominant problem with DSLR images as "color mottling". but i'd argue that what he's seeing is dark current and sky noise in RGB, all at once. i can't think of a reason why a DSLR image would be different from an OSC CCD image, except that the OSC is usually cooled, hence you don't see as much effect from dark current, especially when the frames have been calibrated.
3) canon does play tricks with dark current suppression and the 6D is supposed to have really amazing high-ISO performance, perhaps better than the 5dmk3.
one very positive aspect of his approach is the use of adobe camera raw to correct lens aberrations. adobe has an extensive database of lens profiles and can quickly and accurately correct barrel/pincushion distortions, as well as CA, for a variety of lens/extender/camera body combinations.
it *may* be possible to calibrate a DSLR image and then bring it into camera raw for lens corrections, if the file is a 32-bit tiff. that would be the best of all worlds. luckily a guy who is a deep-sky imager is now on adobe's camera raw team so it's possible CR may support the kinds of stuff we need to do in AP vs. general DSLR photography.
i'll bet tony's images could be improved upon if they first went thru the normal calibration flow. but, if the end result is "good enough", then perhaps many people would be happy with a flow like this. but i agree that it is contrary to proper data reduction.
rob
