2 research outputs found
Quality Measures for Speaker Verification with Short Utterances
The performances of the automatic speaker verification (ASV) systems degrade
due to the reduction in the amount of speech used for enrollment and
verification. Combining multiple systems based on different features and
classifiers considerably reduces speaker verification error rate with short
utterances. This work attempts to incorporate supplementary information during
the system combination process. We use quality of the estimated model
parameters as supplementary information. We introduce a class of novel quality
measures formulated using the zero-order sufficient statistics used during the
i-vector extraction process. We have used the proposed quality measures as side
information for combining ASV systems based on Gaussian mixture model-universal
background model (GMM-UBM) and i-vector. The proposed methods demonstrate
considerable improvement in speaker recognition performance on NIST SRE
corpora, especially in short duration conditions. We have also observed
improvement over existing systems based on different duration-based quality
measures.Comment: Accepted for publication in Digital Signal Processing: A Review
Journa
Quality Measures for Speaker Verification with Short Utterances
International audienceThe performances of the automatic speaker verification (ASV) systems degrade due to the reduction in amount of speech used for enrollment and verification. Combining multiple systems based on different features and classifiers considerably reduces speaker verification error rate with short utterances. This work attempts to incorporate supplementary information during the system combination process. We use quality of the estimated model parameters as a supplementary information. We introduce a class of novel quality measures formulated using the zero-order sufficient statistics used during the i-vector extraction process. We have used the proposed quality measures as side information for combining ASV systems based on Gaussian mixture model-universal background model (GMM-UBM) and i-vector. Considerable improvement is found in performance metrics by the proposed system on NIST SRE corpora in short duration conditions. We have observed improvement over state-of-the-art i-vector system