Voice activity detection using harmonic frequency components in likelihood ratio test

Tan, Lee Ngee; Borgström, Bengt; Alwan, Abeer

doi:10.1109/icassp.2010.5495611

Cited by 35 publications

(20 citation statements)

References 14 publications

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“…Spectral domain VNV detection methods exploit the spectral harmonicity in voiced regions. Harmonic peaks in the amplitude spectrum of voiced speech regions are usually preserved in noisy speech ( Tan et al, 2010 ). Spectral harmonicity is exploited in developing the robust automatic speech recognition ( Beh & Ko, 2003 ) and speech enhancement ( Plapous et al, 2005 ) http://dx.doi.org/10.1016/j.specom.2016.01.008 0167-6393/© 2016 Elsevier B.V. All rights reserved.…”

Section: Introductionmentioning

confidence: 99%

Voice/non-voice detection using phase of zero frequency filtered speech signal

Kumar

Rao

2016

Speech Communication

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Section: Introductionmentioning

confidence: 99%

Voice/non-voice detection using phase of zero frequency filtered speech signal

Kumar

Rao

2016

Speech Communication

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“…Statistical models are superior to rule-based classification algorithms when the segments are not clearly demarcated. There are several popular statistical models in VAD systems such as the likelihood ratio test (LRT) [15]. Tan et al modified the LRT-based model by selecting discrete Fourier transform bins that consist of harmonic spectral peaks to determine the likelihood ratio.…”

Section: Discriminative Features and Classificationmentioning

confidence: 99%

Real-Time Robust Voice Activity Detection Using the Upper Envelope Weighted Entropy Measure and the Dual-Rate Adaptive Nonlinear Filter

Ong

Tan

Vengadasalam

et al. 2017

Entropy

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Voice activity detection (VAD) is a vital process in voice communication systems to avoid unnecessary coding and transmission of noise. Most of the existing VAD algorithms continue to suffer high false alarm rates and low sensitivity when the signal-to-noise ratio (SNR) is low, at 0 dB and below. Others are developed to operate in offline mode or are impractical for implementation in actual devices due to high computational complexity. This paper proposes the upper envelope weighted entropy (UEWE) measure as a means to enable high separation of speech and non-speech segments in voice communication. The asymmetric nonlinear filter (ANF) is employed in UEWE to extract the adaptive weight factor that is subsequently used to compensate the noise effect. In addition, this paper also introduces a dual-rate adaptive nonlinear filter (DANF) with high adaptivity to rapid time-varying noise for computation of the decision threshold. Performance comparison with standard and recent VADs shows that the proposed algorithm is superior especially in real-time practical applications.

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“…Furthermore, it has been shown that the spectro-temporal analysis of the Fourier spectrogram can capture prominent acoustic "textures", such as pitch, harmonicity, formant, amplitude modulation (AM) and frequency modulation (FM) [34]. The pitch, harmonicity and formants are spectrum-related features have been considered in VAD algorithms [3], [21], [22]. The AM encodes the long-term variations of the envelope of the acoustic signal and was considered as in [15]- [18], [22].…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, pitch (fundamental frequency) and harmonics of a voiced sound are perceptually important to human hearing [10], [19], [20]. This property leads to the approach of adopting harmonic-related features in VAD algorithms [3], [21], [22].…”

Section: Introductionmentioning

confidence: 99%

Robust Voice Activity Detection Algorithm Based on Feature of Frequency Modulation of Harmonics and Its DSP Implementation

Hsu

Cheong

Chi

et al. 2015

IEICE Trans. Inf. & Syst.

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SUMMARY This paper proposes a voice activity detection (VAD) algorithm based on an energy related feature of the frequency modulation of harmonics. A multi-resolution spectro-temporal analysis framework, which was developed to extract texture features of the audio signal from its Fourier spectrogram, is used to extract frequency modulation features of the speech signal. The proposed algorithm labels the voice active segments of the speech signal by comparing the energy related feature of the frequency modulation of harmonics with a threshold. Then, the proposed VAD is implemented on one of Texas Instruments (TI) digital signal processor (DSP) platforms for real-time operation. Simulations conducted on the DSP platform demonstrate the proposed VAD performs significantly better than three standard VADs, ITU-T G.729B, ETSI AMR1 and AMR2, in non-stationary noise in terms of the receiver operating characteristic (ROC) curves and the recognition rates from a practical distributed speech recognition (DSR) system.

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Voice activity detection using harmonic frequency components in likelihood ratio test

Cited by 35 publications

References 14 publications

Voice/non-voice detection using phase of zero frequency filtered speech signal

Voice/non-voice detection using phase of zero frequency filtered speech signal

Real-Time Robust Voice Activity Detection Using the Upper Envelope Weighted Entropy Measure and the Dual-Rate Adaptive Nonlinear Filter

Robust Voice Activity Detection Algorithm Based on Feature of Frequency Modulation of Harmonics and Its DSP Implementation

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