Design and Performance Analysis of Bayesian, Neyman-Pearson and Competitive Neyman-Pearson Voice Activity Detectors
S. Abhijeet, Z. P., und A. O.. IEEE Transactions on Signal Processing, 55 (9):
4341-4353(September 2007)
Zusammenfassung
In this paper, the Bayesian, Neyman-Pearson and
Competitive Neyman-Pearson detection approaches are analyzed
using a perceptually modified Ephraim-Malah (PEM) model,
based on which a few practical voice activity detectors are
developed. The voice activity detection is treated as a composite hypothesis testing problem with a free parameter formed by the prior signal-to-noise ratio (SNR). It is revealed that a high prior SNR is more likely to be associated with the ‘speech hypothesis’ than the ‘pause hypothesis’ and vice-versa, and the CNP approach exploits this relation by setting a variable upper bound for the probability of false-alarm. The proposed VADs are tested under different noises and various SNRs, using speech samples from the SWITCHBOARD database, and are compared with adaptive multi-rate (AMR) VADs. Our results show that the CNP VAD outperforms the NP and Bayesian VADs, and compares well to the AMR VADs. The CNP VAD is also computationally inexpensive making it a good candidate for applications in communication systems.
%0 Journal Article
%1 CNPVAD
%A Abhijeet, Sangwan
%A P., Zhu W.
%A O., Ahmad M.
%D 2007
%J IEEE Transactions on Signal Processing
%K Activity Bayesian Competitive Detection Detector Hypotheses Neyman-Pearson Testing VAD speech voice
%N 9
%P 4341-4353
%T Design and Performance Analysis of Bayesian, Neyman-Pearson and Competitive Neyman-Pearson Voice Activity Detectors
%U http://sites.google.com/site/publicationsabhijeetsangwan/Home/publication-pdfs/double.pdf?attredirects=0
%V 55
%X In this paper, the Bayesian, Neyman-Pearson and
Competitive Neyman-Pearson detection approaches are analyzed
using a perceptually modified Ephraim-Malah (PEM) model,
based on which a few practical voice activity detectors are
developed. The voice activity detection is treated as a composite hypothesis testing problem with a free parameter formed by the prior signal-to-noise ratio (SNR). It is revealed that a high prior SNR is more likely to be associated with the ‘speech hypothesis’ than the ‘pause hypothesis’ and vice-versa, and the CNP approach exploits this relation by setting a variable upper bound for the probability of false-alarm. The proposed VADs are tested under different noises and various SNRs, using speech samples from the SWITCHBOARD database, and are compared with adaptive multi-rate (AMR) VADs. Our results show that the CNP VAD outperforms the NP and Bayesian VADs, and compares well to the AMR VADs. The CNP VAD is also computationally inexpensive making it a good candidate for applications in communication systems.
@article{CNPVAD,
abstract = {In this paper, the Bayesian, Neyman-Pearson and
Competitive Neyman-Pearson detection approaches are analyzed
using a perceptually modified Ephraim-Malah (PEM) model,
based on which a few practical voice activity detectors are
developed. The voice activity detection is treated as a composite hypothesis testing problem with a free parameter formed by the prior signal-to-noise ratio (SNR). It is revealed that a high prior SNR is more likely to be associated with the ‘speech hypothesis’ than the ‘pause hypothesis’ and vice-versa, and the CNP approach exploits this relation by setting a variable upper bound for the probability of false-alarm. The proposed VADs are tested under different noises and various SNRs, using speech samples from the SWITCHBOARD database, and are compared with adaptive multi-rate (AMR) VADs. Our results show that the CNP VAD outperforms the NP and Bayesian VADs, and compares well to the AMR VADs. The CNP VAD is also computationally inexpensive making it a good candidate for applications in communication systems.},
added-at = {2008-10-18T18:04:13.000+0200},
author = {Abhijeet, Sangwan and P., Zhu W. and O., Ahmad M.},
biburl = {https://www.bibsonomy.org/bibtex/242aae2f667acf81c89862453905e04c0/abhijeet.sangwan},
interhash = {06ee51dd58caf711883d96a431e31087},
intrahash = {42aae2f667acf81c89862453905e04c0},
journal = {IEEE Transactions on Signal Processing},
keywords = {Activity Bayesian Competitive Detection Detector Hypotheses Neyman-Pearson Testing VAD speech voice},
month = {September},
number = 9,
pages = {4341-4353},
timestamp = {2008-10-19T23:00:18.000+0200},
title = {Design and Performance Analysis of Bayesian, Neyman-Pearson and Competitive Neyman-Pearson Voice Activity Detectors},
url = {http://sites.google.com/site/publicationsabhijeetsangwan/Home/publication-pdfs/double.pdf?attredirects=0},
volume = 55,
year = 2007
}