poliastro - 🚀 Astrodynamics in Python
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Updated
Oct 14, 2023 - Python
poliastro - 🚀 Astrodynamics in Python
A star map with d3.js
Orbit Determination with Python
The Piranha computer algebra system.
N-body fortran integrator
A tool for visualizing Resident Space Objects (http://astria.tacc.utexas.edu/AstriaGraph/)
C++ library for ODE integration via Taylor's method and LLVM
Python library for ODE integration via Taylor's method and LLVM
A C++20 library for the symbolic manipulation of sparse polynomials & co.
NASA/JPL SPICE Toolkit for C – patched for cross-platform compatibility
A free, fast and accurate routine to compute the position of the Sun
A simple matplotlib-based orbital mechanics visualization library
Fortran library to compute positions of celestial bodies
Numerical solution of Circular restricted three-body problem in which the mass of one of the bodies is negligible, as well as the interaction forces between it and the other two bodies.
Hassle free galactical procedural generator
The MATLAB model here presented performs trajectory propagations based on the Constant Density Polyhedron algorithm. With this model, it is possible to compute trajectories in the proximity of astronomical bodies such as asteroids or comets. The algorithm also allows to compute ballistic trajectories.
Identify asteroid families using machine-learning
Fast open-source software toolkit for numerical integration in orbital environments, and is easily incorporated into existing projects with seamless Python and Matlab support
Проект по ИД "Небесна Механика" към ФМИ, СУ
Calculates an ephemeris of a celestial object provided its orbital elements, observation date, and returns it as declination and right ascension
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