Effacer les filtres
Effacer les filtres

Could I change a code from jupyternote book to Matlab

1 vue (au cours des 30 derniers jours)
Ahmed Gharieb naga
Ahmed Gharieb naga le 7 Juil 2023
Réponse apportée : Neev le 11 Juil 2023
from fourier_koopman import fourier import numpy as np
x = (np.sin([2*np.pi/24*np.arange(5000)]) + np.sin([2*np.pi/33*np.arange(5000)])).T x = x.astype(np.float32)
f = fourier(num_freqs=2) f.fit(x[:3500], iterations = 1000)
  1 commentaire
Joe Vinciguerra
Joe Vinciguerra le 7 Juil 2023
The short answer is "yes". But you would need to know what the python code does, how it works, and the equivalent matlab syntax. The first couple lines are simple, but that last line might give you trouble if you don't have the documentation for the "fourier_koopman" module, or know how to apply it matlab. Additionally, since it's an iterative fitting algorithm using a deep neural network, you'll likely get a different answer in Matlab. Why don't you just use python, or run the python script from matlab?

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Réponses (1)

Neev
Neev le 11 Juil 2023
Hey Ahmed
Yes, the above code you shared can be converted to MATLAB and t=you can find the converted code below:-
% importing the libraries
import fourier_koopman.fourier;
import numpy as np;
t = 0:4999;
x = (sin(2*pi/24*t) + sin(2*pi/33*t))';
x = single(x);
f = fourier_koopman.fourier(num_freqs=2);
f.fit(x(1:3500), 'iterations', 1000);
But, before running the above code, you will have to download the fourier koopman module from the 'Add-on Explorer' in the 'Environment' section at 'Home' of MATLAB taskbar.
You can try the above and let me know oif you need any further help.
I hope the information I shared with you will be of help to you:)

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