Incompact3d
PteraSoftware
| Incompact3d | PteraSoftware | |
|---|---|---|
| 1 | 3 | |
| 122 | 155 | |
| 7.4% | - | |
| 9.4 | 4.0 | |
| 14 days ago | 8 months ago | |
| Fortran | Python | |
| BSD 3-clause "New" or "Revised" License | MIT License |
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Incompact3d
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Explicit filtering as a form of stabilizing the solution in higher order finite difference schemes.
Incompact3d uses compact finite difference schemes which, for the second derivatives, can introduce targeted numerical dissipation. See Lamballais et al (2011)
PteraSoftware
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I want to find how variables(like pitch, yaw, roll angle, speed, etc) change in different dynamic modes (spiral, dutch roll, roll damping) wrt time. How do I do this in MATLAB? Would appreciate any pointers.
It's not MATLAB, but I know there is Ptera Software in Python that aims to do something approximately similar with flapping wings. It's going for a more advanced simulation, though.
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I just published the first validated version of Ptera Software, my open-source, unsteady aerodynamics simulator for flapping wings! If you know Python and would like to contribute, check out the to-do list on the README. If not, I'd still appreciate your feedback! You can find the project on GitHub.
Here's a link to the project on GitHub!
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A few months ago, I posted Ptera Software, my open-source flapping wing simulator. You asked me to validate it, so I did! Kudos to UMich for the experimental data that made this possible. Download the validation report and software from GitHub! As before, I'd love any feedback or collaboration.
Oh cool! What's the title of your book? The repo can be found here.
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