An open source flight dynamics & control software library
Aircraft design optimization made fast through computational graph transformations (e.g., automatic differentiation). Composable analysis tools for aerodynamics, propulsion, structures, trajectory des...
A parametric aircraft geometry tool
#计算机科学#NeuralFoil is a practical airfoil aerodynamics analysis tool using physics-informed machine learning, in pure Python/NumPy.
Ptera Software is a fast, easy-to-use, and open-source software package for analyzing flapping-wing flight.
NASA's aircraft analysis, design, and optimization tool
CEASIOMpy is a Python conceptual aircraft design environment
xflrpy is a python enabled version of xflr5 for scripting and design optimization.
A Comprehensive Julia implementation of the Vortex Lattice Method
Boeing 777-300ER simulation for X-Plane flight simulator
Airframe Finite Element Modeler
An all in one airfoil modelling, meshing, analysis, and optimization tool with built in support for gmsh, SU2, and xfoil
An Implementation of the Vortex Lattice (VLM) and the Doublet Lattice Method (DLM) for aeroelasticity.
In this repository I publish the python code, that was part of my master thesis. The thesis can be found here, however its in German though, sry. :/
The Loads Kernel Software allows for the calculation of quasi-steady and dynamic maneuver loads, unsteady gust loads in the time and frequency domain as well as dynamic landing loads based on a generi...
Get airfoil characteristics from an experimental database.
A Python implementation of the 1976 standard atmosphere model. Suitable to determine air properties at different altitudes.