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 [BibTeX] [Marc21]
Low-Rank Representation For Enhanced Deep Neural Network Acoustic Models
Type of publication: Idiap-RR
Citation: Luyet_Idiap-RR-05-2016
Number: Idiap-RR-05-2016
Year: 2016
Month: 3
Institution: Idiap
Abstract: Automatic speech recognition (ASR) is a fascinating area of research towards realizing humanmachine interactions. After more than 30 years of exploitation of Gaussian Mixture Models (GMMs), state-of-the-art systems currently rely on Deep Neural Network (DNN) to estimate class-conditional posterior probabilities. The posterior probabilities are used for acoustic modeling in hidden Markov models (HMM), and form a hybrid DNN-HMM which is now the leading edge approach to solve ASR problems. The present work builds upon the hypothesis that the optimal acoustic models are sparse and lie on multiple low-rank probability subspaces. Hence, the main goal of this Master project aimed at investigating different ways to restructure the DNN outputs using low-rank representation. Exploiting a large number of training posterior vectors, the underlying low-dimensional subspace can be identified, and low-rank decomposition enables separation of the “optimal” posteriors from the spurious (unstructured) uncertainties at the DNN output. Experiments demonstrate that low-rank representation can enhance posterior probability estimation, and lead to higher ASR accuracy. The posteriors are grouped according to their subspace similarities, and structured through low-rank decomposition. Furthermore, a novel hashing technique is proposed exploiting the low-rank property of posterior subspaces that enables fast search in the space of posterior exemplars.
Projects Idiap
Authors Luyet, Gil
Added by: [ADM]
Total mark: 0
  • Luyet_Idiap-RR-05-2016.pdf (MD5: 9ef2e03c36a185a589a054372f7dec64)