There are 10 repositories under orbital-simulation topic.
Repository for the EinsteinPy core package :rocket:
Astrodynamics with Python book, software, and videos. Spacecraft trajectory and attitude modeling and simulation
A Modern Fortran Library for Astrodynamics 🚀
Calculate orbital information of satellites in GoLang.
:rocket: A simple Qt/OpenGL satellite orbit simulator
spacecraft orbit calculate
Orbit propagation using various methods.
Model to simulate the dynamics of the Satellites motion during orbit undergoing passive magnetic control.
3D simulation of the Earth orbiting the Sun
Conquer Space! A space themed grand strategy set in the present to near future, with emphasis on economics, politics, and society, with realistic orbital mechanics.
Astrodynamics framework
hapsira - :rocket: Astrodynamics in Python - a poliastro fork
Orbit, Rigid Body Dynamics and Magnetic field simulation for Low-Earth-Orbit Spacecraft
A program which plots pattern that revolving planets make. Usually, people visualise just 2 planets but this one gives you the freedom to spawn any number of planets.
A spaceflight simulator
Demonstration of Conventional 2 Sensor Attitude Determination using VRML in Simulink
Repository started as part of a 2022 study on Python libraries for orbit propagation.
Attitude Determination System for SFU Satellite Design Team
Script python para automatizar todo o procedimento de lançamento de um foguete incluindo, entrar em orbita, realizar a reentrada e pousar a capsula em segurança no Kerbal Space Program.
🛰 📡 💫 A simulation of LEO internet satellite constellations (i.e. Starlink) -- originally made for UC Berkeley's EE122
Final degree project: Study of analytical solutions for low-thrust trajectories
Documents for Spacecraft Simulation Environment
Space Object RADar SIMulator
A simple 2D solar system explorer written in C++, powered by SDL and ImGui
Simple J2 propagator modeled in Simulink
ParaView template project for orbital data visualization (orbits, trajectory points, ground station field of view)
A simple orbit determination package (kalman filter estimation), which I coded for my master's thesis
The Orbitronomy library is designed to simplify the process of plotting, calculating, visualizing, and animating the orbits of celestial bodies in 3D space. It employs Kepler's elliptical orbit equations and Keplerian Elements, in conjunction with PyAstronomy and Matplotlib, to perform precise orbital calculations.