15th Feb 2024: Astro Pixel Processor 2.0.0-beta29 released - macOS native File Chooser, macOS CMD-Q fixed, read-only Fits on network fixed and other bug fixes
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Hi,
this is my first try with my just modified X-T3 Full Spectrum, under astronomical twilight because of my location on 2020-06-12.
Equipment used was a XF90mm F2 steppt down to F4, and the Sky Watcher Star Adventurer.
6000s @120s each, 50 integrated Files
The workflow was good (APP 1.080-beta2), I just had a greenish tint to the picture, nothing severe but noticeable. And well to handle in post.
Hop you like the picture. Suggestions for improvement?
Christoph
This is RGB right? You could try to perform Light Pollution correction to maybe get a more even result and when it's broadband data, star color calibration.
Hi,
this is my first try with my just modified X-T3 Full Spectrum, under astronomical twilight because of my location on 2020-06-12.
Equipment used was a XF90mm F2 steppt down to F4, and the Sky Watcher Star Adventurer.
6000s @120s each, 50 integrated Files
The workflow was good (APP 1.080-beta2), I just had a greenish tint to the picture, nothing severe but noticeable. And well to handle in post.
Hop you like the picture. Suggestions for improvement?
Christoph
@hoffi1981, Excellent result, thanks for sharing ! Great to see a Fujifilm X-Trans result 🙂
Like @vincent-mod, suggests, have you used both the Remove Light Pollution tool and Star Color Calibration in APP? If not, please try or ask us to do it for you as an example to demonstrate the capabilities of APP.
Mabula
new Version with Remove Light Pollution tool and Star Color Calibration used. Not so experienced with that. So most likely you could do better.
new Version with Remove Light Pollution tool and Star Color Calibration used. Not so experienced with that. So most likely you could do better.
Hi Christoph @hoffi1981,
Thanks for showing this, I think it is lacking quite a bit of color compared to your first result, perhaps you did not apply any saturation on the result this time?
Please share the integration/stack and I will try to do it and share with you how I would do it 😉
You can upload it here:
https://ariesprodstor.astropixelprocessor.com:7001/
login and password: appuser
Make a folder with your name and give me a sign once uploaded and I will report back with the result soon !
Mabula
Hi Christoph @hoffi1981,
Thank you for sharing your data, I have processed it and present you my result here, 100% APP:
So, we only have light frames, I simply integrated all with APP's fully automatic integration settings. Load light frames, go to 6) Integrate, click on Integrate and we get this:
We see a fair bit of light pollution/gradients and some greenish cast on this initial result.
So next step, load the integration into the 9) Remove Light Pollution tool:
To correct the data nicely, I purposely stretch and saturate very strongly ! That way, I can easily see what I want to correct 🙂
The image is now corrected for Light Pollution/gradients and also it is automatically Background Calibrated by the Remove Light Pollution tool, I now want to correct the colors with the 9) Star Color Calibration tool:
Looks already much better 🙂 For instance, Deneb is now rather blue which is the correct color, Deneb is the bright star above the North America Nebula. Finally, I want to get rid of some greenish and magenta casts on some of the stars in the very dense star fields, I used APP's Selective Color tool, selected green, injected magenta and killed green's saturation. I then selected magneta and injected some green into those pixels. Both operations actually reduce the green and magenta in the image.
Finally I applied the final stretch in APP with enhanced color saturation & contrast:
Then saved the stretched result as JPG with 100% quality and sRGB color profile:
Hope you like the result? You can download my results here to check all my steps 😉 :
Cheers,
Mabula
Hi Mabula,
thx for the very nice processing. I can see that there is still a lot to learn in color calibration for me. But so is life 🤔 .
I just had a idea to simplify this process for beginners. I see that the calibration with a tool that can show you the spread of the stars in the main row is very powerful, but difficult to handle in the beginning.
My idea is if you have in your picture, with broadband data (no Narrowband), a given star like Deneb or Beteigeutze. Pick the color (if not burned out of course) and calibrate Data withe a Spectroscopic reference (from a scientific source) to get a starting point. And fine tune from there. This could be for the 100-200 or so brightest Stars. Beginners normally start with wide field so you should find at least one of the stars in the Frame.
I know that you can make things worse if you select the wrong reference Star.
I am curious what you think about this idea. And i have no idea how difficult it would be to implement this in your program.
Christoph
I think the way APP is doing the calibration is more consistent and precise. What it does is it takes all selected stars and plots them on the graph, we know that main sequence stars behave in a very predictable manner (black body radiation, represented by the green line) and you should expect the lower graph to have some in the lower left (more blue stars) and most in the upper right (more red) on a more or less linear line. Given filters used or other effects are not changing the data too much, this gives an excellent starting point. Sometimes filters will influence the data somewhat, you can then change that a little by changing the position of the lines through the star population.