Arnaud these videos are excellent. Thank you so much for sharing your knowledge and for all the time you have putting into teaching people and developing tools!! Best wishes.
The point that people tend to neglect when presenting images like at 6:15 is that the uncertainty principle you mentioned in the begnining sets a lower bound to the area of the rectangles. That's where the tradeoff comes from. As shown here (and everywhere I've looked), ther'es nothing preventing us from just making smaller and smaller rectangles, when in reality there is!
You can call matlab through python. The mathworks website has ways to do this. Then you can just use matlab code when you call matlab to run eeglab. I haven't tried this, I am just going to use matlab. But, it could be an option.
Arnaud these videos are excellent. Thank you so much for sharing your knowledge and for all the time you have putting into teaching people and developing tools!! Best wishes.
Thanks Michael
The point that people tend to neglect when presenting images like at 6:15 is that the uncertainty principle you mentioned in the begnining sets a lower bound to the area of the rectangles. That's where the tradeoff comes from. As shown here (and everywhere I've looked), ther'es nothing preventing us from just making smaller and smaller rectangles, when in reality there is!
Excellent
pls upload any video on time series data and wavelet. thanx
Thanks so much for sharing this video. Can I use EEGLAB with python because I don't like Matlab. Is it applicable?
for python, you may use MNE
@@01hZ thanks so much. The problem is MNE is more difficult than EEGLAB and there are not to much tutorials on TH-cam.
@@Mohamm-ed I agree, use EEGLab, mne was a waste of time for my project
You can call matlab through python. The mathworks website has ways to do this. Then you can just use matlab code when you call matlab to run eeglab. I haven't tried this, I am just going to use matlab. But, it could be an option.