pde-optimisation
Optimisation of current carrying cables estimating the heat transfer into the surrounding soil
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This demonstration shows a combination of:
1) Finite element analysis (FEA) of solid body heat transfer with non-linear material properties
2) Optimisation of an output of the FEA
specifically related to a real world problem. We walk through the general process, which is:
1) Generate a representative FEA solver wrapped into a function
2) Use Surrogate Optimisation to find a close, but fast, approximation of the global optimum
3) Deploy a local solver based on the output of the Surrogate Optimisation to polish and find the global optimum
We will look at the case of a current carrying conductor that is buried underground. In this case we want to maximise the current that can be carried subject to the insulator staying below a fixed temperature.
Citar como
Peter Brady (2026). pde-optimisation (https://github.com/mathworks/pde-optimisation/releases/tag/V1.4.0), GitHub. Recuperado .
Información general
- Versión 1.4.0.0 (779 KB)
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Ver licencia en GitHub
Compatibilidad con la versión de MATLAB
- Compatible con cualquier versión desde R2020a
Compatibilidad con las plataformas
- Windows
- macOS
- Linux
| Versión | Publicado | Notas de la versión | Action |
|---|---|---|---|
| 1.4.0.0 | See release notes for this release on GitHub: https://github.com/mathworks/pde-optimisation/releases/tag/V1.4.0 |
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| 1.3.0.0 | See release notes for this release on GitHub: https://github.com/mathworks/pde-optimisation/releases/tag/V1.3.0 |
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| 1.2.0 | See release notes for this release on GitHub: https://github.com/mathworks/pde-optimisation/releases/tag/V1.2.0 |
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| 1.1.0 | See release notes for this release on GitHub: https://github.com/mathworks/pde-optimisation/releases/tag/v1.1.0 |
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| 1.0.0 |
