Skip to content

Instantly share code, notes, and snippets.

@johnmeade
Last active October 22, 2024 03:17
Show Gist options
  • Save johnmeade/d8d2c67b87cda95cd253f55c21387e75 to your computer and use it in GitHub Desktop.
Save johnmeade/d8d2c67b87cda95cd253f55c21387e75 to your computer and use it in GitHub Desktop.
WADA SNR Estimation of Speech Signals in Python
import numpy as np
def wada_snr(wav):
# Direct blind estimation of the SNR of a speech signal.
#
# Paper on WADA SNR:
# http://www.cs.cmu.edu/~robust/Papers/KimSternIS08.pdf
#
# This function was adapted from this matlab code:
# https://labrosa.ee.columbia.edu/projects/snreval/#9
# init
eps = 1e-10
# next 2 lines define a fancy curve derived from a gamma distribution -- see paper
db_vals = np.arange(-20, 101)
g_vals = np.array([0.40974774, 0.40986926, 0.40998566, 0.40969089, 0.40986186, 0.40999006, 0.41027138, 0.41052627, 0.41101024, 0.41143264, 0.41231718, 0.41337272, 0.41526426, 0.4178192 , 0.42077252, 0.42452799, 0.42918886, 0.43510373, 0.44234195, 0.45161485, 0.46221153, 0.47491647, 0.48883809, 0.50509236, 0.52353709, 0.54372088, 0.56532427, 0.58847532, 0.61346212, 0.63954496, 0.66750818, 0.69583724, 0.72454762, 0.75414799, 0.78323148, 0.81240985, 0.84219775, 0.87166406, 0.90030504, 0.92880418, 0.95655449, 0.9835349 , 1.01047155, 1.0362095 , 1.06136425, 1.08579312, 1.1094819 , 1.13277995, 1.15472826, 1.17627308, 1.19703503, 1.21671694, 1.23535898, 1.25364313, 1.27103891, 1.28718029, 1.30302865, 1.31839527, 1.33294817, 1.34700935, 1.3605727 , 1.37345513, 1.38577122, 1.39733504, 1.40856397, 1.41959619, 1.42983624, 1.43958467, 1.44902176, 1.45804831, 1.46669568, 1.47486938, 1.48269965, 1.49034339, 1.49748214, 1.50435106, 1.51076426, 1.51698915, 1.5229097 , 1.528578 , 1.53389835, 1.5391211 , 1.5439065 , 1.54858517, 1.55310776, 1.55744391, 1.56164927, 1.56566348, 1.56938671, 1.57307767, 1.57654764, 1.57980083, 1.58304129, 1.58602496, 1.58880681, 1.59162477, 1.5941969 , 1.59693155, 1.599446 , 1.60185011, 1.60408668, 1.60627134, 1.60826199, 1.61004547, 1.61192472, 1.61369656, 1.61534074, 1.61688905, 1.61838916, 1.61985374, 1.62135878, 1.62268119, 1.62390423, 1.62513143, 1.62632463, 1.6274027 , 1.62842767, 1.62945532, 1.6303307 , 1.63128026, 1.63204102])
# peak normalize, get magnitude, clip lower bound
wav = np.array(wav)
wav = wav / abs(wav).max()
abs_wav = abs(wav)
abs_wav[abs_wav < eps] = eps
# calcuate statistics
# E[|z|]
v1 = max(eps, abs_wav.mean())
# E[log|z|]
v2 = np.log(abs_wav).mean()
# log(E[|z|]) - E[log(|z|)]
v3 = np.log(v1) - v2
# table interpolation
wav_snr_idx = None
if any(g_vals < v3):
wav_snr_idx = np.where(g_vals < v3)[0].max()
# handle edge cases or interpolate
if wav_snr_idx is None:
wav_snr = db_vals[0]
elif wav_snr_idx == len(db_vals) - 1:
wav_snr = db_vals[-1]
else:
wav_snr = db_vals[wav_snr_idx] + \
(v3-g_vals[wav_snr_idx]) / (g_vals[wav_snr_idx+1] - \
g_vals[wav_snr_idx]) * (db_vals[wav_snr_idx+1] - db_vals[wav_snr_idx])
# Calculate SNR
dEng = sum(wav**2)
dFactor = 10**(wav_snr / 10)
dNoiseEng = dEng / (1 + dFactor) # Noise energy
dSigEng = dEng * dFactor / (1 + dFactor) # Signal energy
snr = 10 * np.log10(dSigEng / dNoiseEng)
return snr
@Namabra
Copy link

Namabra commented Sep 12, 2023

Hello, I have a short question :) I want to use this function to calculate the SNR for audio files generated with a TTS system. So far, I get a SNR value of 100 for every audio. I also tried it with a different audio file (one that definitely contains noise) and the SNR value was 21. So I don't think I did anything incorrectly with the function.
Would you still disregard the SNR values for the TTS sentences? Or do you think this could a possible result?
I'm very new to this field, so I just would like to be sure. Thank you! :)

@nervjack2
Copy link

Hello, I am trying to re-computing the value of g_vals above with 0.5 shape parameters. Are you able to share the code of computing g_vals? It is quite hard to implement the integral equation in the paper. Thank you so much!

Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment