Hi Salvatore,
Thanks for writing. By the way, I felt a little bad about bringing up Fabian's example in your thread. I somewhat hijacked your post. Sorry about that.
Concerning the background, yes you are correct. The dark background was just my non-linear stretch that I actually used when I blended in the data. The background is unchanged in process of removing stars. I just didn't have the non-linear image of the stars removed with a lighter background that is all.
To everyone that might read this- I connected with Fabian...and I am working on making the video. However, he is in the process of reviewing my work (it is his implementation of this technique in PI after all)- and he is a busy guy! So it is still a work in progress... but very much in play.
-adam
Thanks for sharing, adam.
Fabian's sounds like an interesting technique - I'll be sure to check it out as soon as I get a chance.
I think you tried to explain why the sky background levels are different in the before/after images you posted as an example, but I'm not sure I understand the explanation. Correct me if I am mistaken, but I believe you were trying to explain that the difference was not a shortcoming of Fabian's process, but that it turned out that way as a result of you rushing to prepare the example.
Hi Salvatore,
For the past few years Fabian Neyer has been demonstrating a technique of star removal that is based on practices that professionals use. He cites this paper of showing the intragalactic glow between members of the virgo cluster:
http://iopscience.iop.org/article/10.1088/0004-637X/720/1/569/pdf
The technique you demonstrate is something like a first order approximation of the idea. The full technique employs some other clever steps including using MLT to calculate the local sky value of stars at different scales. When you use the defect map, you are only using those pixels that are immediate neighbors to your regions. But varying the scale of MLT you can properly get better sky values (and therefore substitution) for the stars. In addition, and this is really clever- you can create a sky subtracted star images that you blur and then subtract from the real data in order to get rid of stellar halos and the wings of PSFs. This takes care of OldWexi's question.
(on a note of computing, Fabian's technique does not require the computational overhead of what the defect map does by looking at each neighbor pixel.)
I just completed an image that uses Fabian's technique. Below is a version of SH2-68 before and after star removal. (I did not see the black levels the same...just quickly grabbed). If there is interest, I can post my version of this tutorial (I will ask Fabian... but I think it isn't a problem). I added a few variations to Fabian's technique. It is a longer process, but the results are commensurate with the effort.
-adam
