AeroSandbox
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AeroSandbox | jsbsim | |
---|---|---|
6 | 3 | |
651 | 1,208 | |
- | 5.4% | |
9.7 | 8.3 | |
14 days ago | 26 days ago | |
Jupyter Notebook | C++ | |
MIT License | GNU Lesser General Public License v3.0 only |
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AeroSandbox
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UAV DESIGN
this guy's Python library, validated against AVL and - XFLR5 https://peterdsharpe.github.io/AeroSandbox/
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Airfoil smoothing and/or point interpolation algorithms?
You can use the AeroSandbox Python package for this. pip install aerosandbox to install, and then:
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I gave a presentation on the use of Python in aerospace engineering
AeroSandbox - an optimization suite that combines the ease-of-use of NumPy syntax with the power of modern automatic differentiation. AeroSandbox contains dozens of end-to-end-differentiable aerospace physics models, allowing you to simultaneously optimize an aircraft's aerodynamics, structures, propulsion, mission trajectory, stability, and more. Best of all, it is designed to be run on a laptop, not a supercomputer.
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Looking free or opensource aerodynamics software
This might be the sort of thing you're looking for.
- AeroSandbox
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Run and visualise an aerodynamic simulation
I would like to use a library. I saw AeroSandbox who looks great but it seem that I can't load a custom file. Here's the GitHub : https://github.com/peterdsharpe/AeroSandbox
jsbsim
What are some alternatives?
AeroPython - Classical Aerodynamics of potential flow using Python and Jupyter Notebooks
rosplane - A basic fixed-wing autopilot for ROS - based on the textbook "Small Unmanned Aircraft: Theory and Practice" by Randy Beard and Tim McLain
PteraSoftware - Ptera Software is a fast, easy-to-use, and open-source software package for analyzing flapping-wing flight.
ANMS-Codes - Efficient adaptive non-maximal suppression algorithms for homogeneous spatial keypoint distribution
CFDPython - A sequence of Jupyter notebooks featuring the "12 Steps to Navier-Stokes" http://lorenabarba.com/
AlgorithmicTrading - This repository contains three ways to obtain arbitrage which are Dual Listing, Options and Statistical Arbitrage. These are projects in collaboration with Optiver and have been peer-reviewed by staff members of Optiver.
mscsim - Simple flight simulator.
Zygote-Mutating-Arrays-WorkAround.jl - A tutorial on how to work around ‘Mutating arrays is not supported’ error while performing automatic differentiation (AD) using the Julia package Zygote.
xolotl - A MATLAB neuron simulator. Very fast (written in C++). Flexible (fully object oriented). Immediate (live manipulation in MATLAB). Comes with a powerful parameter optimizer. Get started ➡️
xflrpy - xflrpy is a python enabled version of xflr5 for scripting and design optimization.
casadi - CasADi is a symbolic framework for numeric optimization implementing automatic differentiation in forward and reverse modes on sparse matrix-valued computational graphs. It supports self-contained C-code generation and interfaces state-of-the-art codes such as SUNDIALS, IPOPT etc. It can be used from C++, Python or Matlab/Octave.