I am using Librosa to transcribe monophonic guitar audio signals.
I thought that, it would be a good start to "slice" the signal depending on the onset times, to detect note changes at the correct time.
Librosa provides a function that detects the local minima before the onset times. I checked those timings and they are correct.
Here is the waveform of the original signal and the times of the minima.
[ 266240 552960 840704 1161728 1427968 1735680 1994752]
The melody played is E4, F4, F#4 ..., B4.
Therefore the results should ideally be: 330Hz, 350Hz, ..., 493Hz (approximately).
As you can see, the times in the
minima array, represent the time just before the note was played.
However, on a sliced signal (of 10-12 seconds with only one note per slice), my frequency detection methods have really poor results. I am confused because I can't see any bugs in my code:
y, sr = librosa.load(filename, sr=40000) onset_frames = librosa.onset.onset_detect(y=y, sr=sr) oenv = librosa.onset.onset_strength(y=y, sr=sr) onset_bt = librosa.onset.onset_backtrack(onset_frames, oenv) # Converting those times from frames to samples. new_onset_bt = librosa.frames_to_samples(onset_bt) slices = np.split(y, new_onset_bt[1:]) for i in range(0, len(slices)): print freq_from_hps(slices[i], 40000) print freq_from_autocorr(slices[i], 40000) print freq_from_fft(slices[i], 40000)
freq_from functions are taken directly from here.
I would assume this is just bad precision from the methods, but I get some crazy results. Specifically,
1.33818658287 1.2078047577 0.802142642257 0.531096911977 0.987532329094 0.559638134414 0.953497587952 0.628980979055
These values are supposed to be the 8 pitches of the 8 corresponding slices (in Hz!).
freq_from_fft returns similar values whereas
freq_from_autocorr returns some more "normal" values but also some random values near 10000Hz:
242.748000585 10650.0394232 275.25299319 145.552578747 154.725859019 7828.70876515 174.180627765 183.731497068
This is the spectrogram from the whole signal:
As you can see, the slicing has been done correctly. However there are several issues. First, there is an octave issue in the spectrogram. I was expecting some issues with that. However, the results I get from the 3 methods mentioned above are just very weird.
Is this an issue with my signal processing understanding or my code?