Damjan Vlaj scite author profile

This paper presents a novel computationally efficient voice activity detection (VAD) algorithm and emphasizes the importance of such algorithms in distributed speech recognition (DSR) systems. When using VAD algorithms in telecommunication systems, the required capacity of the speech transmission channel can be reduced if only the speech parts of the signal are transmitted. A similar objective can be adopted in DSR systems, where the nonspeech parameters are not sent over the transmission channel. A novel approach is proposed for VAD decisions based on mel-filter bank (MFB) outputs with the so-called Hangover criterion. Comparative tests are presented between the presented MFB VAD algorithm and three VAD algorithms used in the G.729, G.723.1, and DSR (advanced front-end) Standards. These tests were made on the Aurora 2 database, with different signal-to-noise (SNRs) ratios. In the speech recognition tests, the proposed MFB VAD outperformed all the three VAD algorithms used in the standards by 14.19% relative (G.723.1 VAD), by 12.84% relative (G.729 VAD), and by 4.17% relative (DSR VAD) in all SNRs

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Acoustic classification and segmentation using modified spectral roll-off and variance-based features

Kos

Kačič

Vlaj

2013

Digital Signal Processing

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The Influence of Lombard Effect on Speech Recognition

Vlaj¹,

Kačič²

2011

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Voice activity detection algorithm using nonlinear spectral weights, hangover and hangbefore criteria

Vlaj

Kačič

Kos

2012

Computers & Electrical Engineering

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Damjan Vlaj

Tennis stroke detection and classification using miniature wearable IMU device

A Computationally Efficient Mel-Filter Bank VAD Algorithm for Distributed Speech Recognition Systems

Acoustic classification and segmentation using modified spectral roll-off and variance-based features

The Influence of Lombard Effect on Speech Recognition

Voice activity detection algorithm using nonlinear spectral weights, hangover and hangbefore criteria

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