Through Irfanview Batch I converted the completed PSDs into JPGs and also resized.Per image I also supplied the correct time in UT and each image was save as a PSD. As after a while my eyes got weary of the Grid I used Post-It labels on the laptop screen as placeholders. Framing and positioning: in Photoshop I prepared a frame template and used the Grid function in Photoshop to position the Sun where I wanted it to be.Cropping: via the Batch function of Irfanview, saved as JPGs.Aligning and Stacking in Registax in Auto mode, no wavelets were applied saved as PNGs.William Optics Zenithstar 80 ED II APO with standard ToUcam Webcam operating with 0.6 Mogg Focal reducer and a stacked Baader Infra Red Blocking Filter/Baader Contrast Booster stacked combo Ĥ3 AVI's were captured with the help of the Interval Timer of K3CCDTools:ĭuring imaging I used the reticles of K3CCDTools to verify that the sun remained nicely centred in the image during the whole imaging session. Here is the setup I used: note the Sun-and-Moon looking down from the opened roof of my observatory.Ĭoronado PST with Televue 2.5 Powermate and Vesta SC3 b/w raw webcam mounted on double piggy back platform William Optics Zenithstar 80 ED II APO with standard ToUcam Webcam operating with 0.6 Mogg Focal reducer and a stacked Baader Infra Red Blocking Filter/Baader Contrast Booster combo and this whole assembly piggybacked on my Meade LX200 mounted on a wedge and pier. Some of the information used in this Tutorial might not be on this page, but can be found on my Solar Eclipse Augpage. There are more details in this image compared to single exposure moon image.īudget moon photography is doable on smartphone, with additional higher power zoom lens and post-processing on RegistaX, we are able to create detailed moon images on smartphone camera.THE FIRMAMENT: Solar Eclipse Tutorial Imaging and Post-ProcessingĪfter imaging and Post-processing the Partial Solar Eclipse of AugI decided to write this Tutorial for later reference by you and me. I stacked 25 images in RegistaX and adjusted the wavelets, final Lightroom adjustment gives me this result.
#Processing moon in registax 6 tutorial software
RegistaX is a free software for planetary image stacking to create better detailed images. Going further, I shoot 25 images for image stacking on RegistaX. The difficultly that I noticed is the focusing, it took me awhile to adjust the focusing on both lens ring and camera slider to achieve the sharpest images. The disadvantage of add-on lens is the images will be a little blurred, probably due to the lens quality and imperfect alignment with camera lens array. These are the images that I have captured. I purchased a 8x zoom lens to take a better view of moon. If you really want a clearer moon image, you can do it with $10-$20 detachable clip-on telescope lens for smartphone.
#Processing moon in registax 6 tutorial iso
ISO 100, 2 seconds Moon and the Milky Way Since smartphone camera is so limited in photographing the moon, it is recommended to shoot the moon with foreground to create more interesting moon images. What I did is I zoomed into the moon and used the focus slider to adjust for the sharpest moon, then I fixed the focus distance and zoomed out to adjust other settings. I am not sure whether this is a software issue. For focusing, we can set focus distance to infinity but for OnePlus 3, it doesn’t appear sharp in infinity focus. For the second image, it was a crescent moon so I can use longer exposure time to properly expose the moon and clouds. As expected, everything except the moon was underexposed.
In the first image, it was very bright and I have to use very fast shutter speed to capture the surface details of the moon. I have tried to capture the details of the moon and the images below are probably the best I can get. The main reason is the short focal length of most of the smartphone cameras that are mostly around 30mm effective focal length.
Moon photography is relatively difficult with smartphone camera compared to DSLR.
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