1 research outputs found
rVAD: An Unsupervised Segment-Based Robust Voice Activity Detection Method
This paper presents an unsupervised segment-based method for robust voice
activity detection (rVAD). The method consists of two passes of denoising
followed by a voice activity detection (VAD) stage. In the first pass,
high-energy segments in a speech signal are detected by using a posteriori
signal-to-noise ratio (SNR) weighted energy difference and if no pitch is
detected within a segment, the segment is considered as a high-energy noise
segment and set to zero. In the second pass, the speech signal is denoised by a
speech enhancement method, for which several methods are explored. Next,
neighbouring frames with pitch are grouped together to form pitch segments, and
based on speech statistics, the pitch segments are further extended from both
ends in order to include both voiced and unvoiced sounds and likely non-speech
parts as well. In the end, a posteriori SNR weighted energy difference is
applied to the extended pitch segments of the denoised speech signal for
detecting voice activity. We evaluate the VAD performance of the proposed
method using two databases, RATS and Aurora-2, which contain a large variety of
noise conditions. The rVAD method is further evaluated, in terms of speaker
verification performance, on the RedDots 2016 challenge database and its
noise-corrupted versions. Experiment results show that rVAD is compared
favourably with a number of existing methods. In addition, we present a
modified version of rVAD where computationally intensive pitch extraction is
replaced by computationally efficient spectral flatness calculation. The
modified version significantly reduces the computational complexity at the cost
of moderately inferior VAD performance, which is an advantage when processing a
large amount of data and running on low resource devices. The source code of
rVAD is made publicly available.Comment: Paper is to appear in CS