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astronomy

Pyxel is a general detector simulation framework (https://esa.gitlab.io/pyxel). An easy-to-use framework that can simulate a variety of imaging detector effects combined on images (e.g. radiation and optical effects, noises) made by CCD or CMOS-based detectors.

Mirror of the main Gaia Sky repository hosted on Codeberg: https://codeberg.org/gaiasky/gaiasky

The Siril image processing software for amateur astronomy

Direction-Time Clustering Algorithms to detect Ultra High Energy Cosmic Ray (UHECR) Photons

En este mod de Minetest Game, el contraste entre el terreno helado, los volcanes y ese cielo negro estrellado permanente captura a la perfección la atmósfera desolada y misteriosa de Plutón. La baja gravedad le debe dar el toque final a la jugabilidad.

Version 2 of the HI Source Finding Application (SoFiA)

Wiki • User Manual • Releases

https://johnwebbcole.gitlab.io/pipiece-ui PiPiece combines a powerful Express.js REST API backend with a modern Vue.js touchscreen interface to provide comprehensive control over the Raspberry Pi HQ Camera.

SiriLic (Siril's Interactive Companion) is a software that prepares acquisition files (RAW, Offset, Flat and Dark) for processing with the SiriL software.

A real time Solar System calendar for 15+ solar system bodies. Just for ease of use

Sun and moon position, times, and illumination calculations for Kit

Graphical user interface for the SoFiA source finding pipeline.

These Python scripts and batch files stand alone for Seestar S50 RGB data captures, but they can also be used in conjunction with my Siril Seestar RGB Scripts to produce a RGB master image file from RGB astronomy data. Both the Multiscale, and the RGB APOD scripts call a user-adjustable parameter file that can be tweaked from object to object... Also included is a way to archive your completed project with a SHA256 manifest. Clear skies!

Basic webpage to present and document photographic slides from the Mckim Observatory.

A customization of the 'Astro Clock' Conky Lua code file for my Linux Mint systems; inspired by the original configuration by @dmocrito (https://www.deviantart.com/dmocrito/art/Conky-Astronomical-Clock-548446848). Reduced the prominence of some of the background grid (sky and ground). Uses Python3 ephemeris data for accurate astronomical information. Requires the python3-ephem pkg.

These Siril Seestar S50 scripts pre-process and Drizzle 1.5x or not. Setting up this pipeline is not difficult. If need be, AI can walk you though the process, just upload the Read Me documents and ask it to help you create the Python Venv. Consult the project Read Me documents for more information. Clear skies!

These Siril preprocessing scripts extract the SII, Ha, and OIII data from Seestar S50 telescope captures, and either Drizzle 1.5x or not. Note that these scripts do not align the SII, Ha, and OIII channels, for that you will either need PixInsight, or a Python pipeline to do so. Setting up this pipeline is not difficult. If need be, AI can walk you though the process, just upload the Read Me documents and ask it to help you create the Python Venv. Consult the project Read Me documents for more information. Clear skies!

These Python scripts and batch files stand alone for One Shot Color (OSC) narrowband data captures, but they can also be used in conjunction with my Siril Seestar Narrowband Extraction Scripts to produce a SOO (Sulfur Oxygen Oxygen) master image file from narrowband astronomy data. The Align script is mandatory, but most users will also want the other scripts as well to complete the full SOO workflow. Both the Multiscale, and the SOO APOD scripts call a user adjustable parameter file that can be tweaked from object to object... Also included are two renaming scripts, and a way to archive your completed project with a SHA256 manifest. Clear skies!

These Python scripts and batch files stand alone for One Shot Color (OSC) narrowband data captures, but they can also be used in conjunction with my Siril Seestar Narrowband Extraction Scripts to produce a SHO (Hubble Pallet) master image file from narrowband astronomy data. The Align script is mandatory, but most users will also want the other scripts as well to complete the full SHO workflow. Both the Multiscale, and the SHO APOD scripts call a user adjustable parameter file that can be tweaked from object to object... Also included are two renaming scripts, and a way to archive your completed project with a SHA256 manifest. Clear skies!

These Python scripts and batch files stand alone for One Shot Color (OSC) narrowband data captures, but they can also be used in conjunction with my Siril Seestar Narrowband Extraction Scripts to produce a HOO (Hydrogen Oxygen Oxygen) master image file from narrowband astronomy data. The Align script is mandatory, but most users will also want the other scripts as well to complete the full HOO workflow. Both the Multiscale, and the HOO APOD scripts call a user adjustable parameter file that can be tweaked from object to object... Also included are two renaming scripts, and a way to archive your completed project with a SHA256 manifest. Clear skies!

Measure Correlations: package to extract clustering statistics (correlation function) from astrophysical and cosmological samples