Jupiter and registax 6 tutorial mac#I'll try to get Registax (Windows) to run on the Mac in a "Wine Skin" similar to Autostakkert! That process seemed real straight forward. Jupiter - April 30, 2016, C-11, ZWO ASI290MC camera, poor seeing straight out of Autostakkert! 2.6.8īased on my experience with Registax there's likely a lot of detail hidden in there waiting to be extracted by further processing with wavelet sharpening. Here's the 4000 frame stack before any wavelet sharpening via Registax and without final processing with Lightroom: Jupiter is strikingly beautiful, It’s cloud bands are very distinct. By comparison earth’s is only 3,958.8 miles or 6,371.00 km. It’s radius is a whopping 43,440.7 miles or 69,911 km. Jupiter and registax 6 tutorial pro#After setting all the parameters as suggested it took less than a minute for the MacBook Pro (2.3 GHz, 16 GB, Intel Core i7) to produce two stacks out of the ~20,000 frames - 2,000 and 4,000 frames. First things first, it’s size, Jupiter is the most massive planet in our solar system, and it’s fifth in orbit. I found a nice Youtube video which made it easy to run Autostakkert! the first time. So I'll keep you posted as things progress. The September 2016 issue of Sky and Telescope has a nice tutorial for that which is available here. The website is ran by a chap called Paul Maxson and I have found it to be extremely useful in getting to grips with Registax 6 and general planetary processing. This has been proved successful, and now I need to become familiar with Autostakkert! 2. This is a screencast of Registax being used to process an astro-image of Jupiter captured with the Orion StarShoot Solar System Color Imager IV.To be notifie. Just thought I'd share this link for a brilliant guide to planetary processing with Registax 6. Jupiter and registax 6 tutorial windows#I discovered a tutorial for running Autostakkert! 2 (a Windows program) on a Mac computer via a "wineskin". The wavelets in Registax can still be useful for post processing. While I can use Registax on my old Windows XP laptop, I thought it would be worthwhile to use THE updated Autostakkert! 2 for stacking. īut first I'll be practicing running the videos through a stacking program. Using a fast video camera, noisy and slightly distorted images are obtained, that can be combined into a single high quality image using this software. Jupiter and registax 6 tutorial software#If that had been my goal, I could have used my old "Blue Cube" Imaging Source mono video camera. AutoStakkert (AS3, AS2) is lucky imaging software used to automatically analyze, align, and stack images of the Sun, Moon and Planets that were taken through a telescope. The color camera was chosen over the mono version since I didn't want to mess will color filters. Long story short - I got distracted for a few months, but hope to try this hardware anew. These videos totaling around 36 GB have been sitting in a folder on my Mac's desktop since then. Last May I captured a number of short videos of Jupiter with a Celestron-11 when seeing was from poor to abysmal. Linux and OSX users are required to use Wine in so far as Registax is only available for Windows.Since I'm resurrecting this thread after 7 months, I've included much of the previous posting to remind me and any others who might be interested in what took place prior to now.īut to bring this up to date, I've received both the color video camera (ZWO ASI290MC) and the atmospheric dispersion corrector (ZWO ADC). Note : This tutorial is only valid for Windows users. Registax is then used to perform a precise alignment of the cropped picture set, stack everything into a single image, and apply the powerful wavelet filter. This preliminary step allows to reduce the size of the images aligned and stacked later by Registax which will perform faster (and often better). Ninox is used for a quick preliminary crop of the raw images, with an automatic centering of the brightest object in the frame (here it's the moon). Focal length : 400mm (35mm equivalent: 600mm).In the following, the raw moon pictures have been acquired with a SONY SLT-A55 DSLR combined with a SIGMA 120-400 lens and the following settings: The alignment task (before being able to properly stack the images) is mandatory in order to compensate the for relative the motion of the moon in front of the camera between the successive shots. This post-processing task requires having a set of photographs (typically 10 to 100 for the moon) that have been acquired in the same conditions, with the same gears, and the same settings (focal length, f number, exposure time, ISO, white balance). Align and stack multiple moon shots (or planetary shots like Jupiter for example) allows to improve the final image quality (less noise, less deformations).
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