EN FR
EN FR


Section: New Results

Uncertainty Estimation and Exploitation in Speech Processing

Participants : Emmanuel Vincent, Odile Mella, Dominique Fohr, Denis Jouvet, Baldwin Dumortier, Juan Andres Morales Cordovilla, Karan Nathwani, Ismaël Bada.

Uncertainty and acoustic modeling

Uncertainty in noise-robust speech and speaker recognition

In many real-world conditions, the target speech signal overlaps with noise and some distortion remains after speech enhancement. The framework of uncertainty decoding assumes that this distortion has a Gaussian distribution and seeks to estimate its covariance matrix in order to exploit it for subsequent feature extraction and decoding. A number of uncertainty estimators have been proposed in the literature, which are typically based on fixed mathematical approximations or heuristics. We finalized our work on a principled variational Bayesian approach to uncertainty estimation and showed its benefit w.r.t. other estimators for speech and speaker recognition [9]. We also pursued our work on the propagation of uncertainty in deep neural network acoustic models.

Uncertainty in other applications

Besides the above applications, we pursued our exploration of uncertainty modeling for robot audition and wind turbine control. In the first context, uncertainty arises about the location of acoustic sources and the robot is controlled to locate the sources as quickly as possible [38]. In the second context, uncertainty arises about the noise intensity of each wind turbine and the turbines are controlled to maximize electrical production under a maximum noise threshold [62].

Uncertainty and phonetic segmentation

Speech-text alignment

We have continued our work on determining more accurate phonetic boundaries with two new approaches based on DNN. The first approach proposes to find phonetic boundaries directly from the parameterized speech signal using an LSTM (Long Short-Term Memory) neural network. The aim of the second approach is twofold: provide confidence measures for evaluating speech-text alignment outputs and refine these outputs. One of these studies was done with the Synalp team of LORIA in the framework of the project ORFEO (cf. 9.2.5). The achieved confidence measure outperforms a confidence score (based on acoustic posterior probability) derived from a state-of-the-art text-to-speech aligner [43].

Within the IFCASL project (cf. 9.2.6), we have also developed a speech-text alignment system for German which will be integrated into the ASTALI software.

Uncertainty and prosody

The study of discourse particles that was initiated last year, has continued in the framework of the CPER LCHN (cf. 9.1.2). A larger set of words and expressions that can be used either as normal lexical words or as discourse particles (as for example quoi (what), voilà (there it is), ...) has been considered. For each of these words/expressions and for each speech corpus that was aligned in the ORFEO project (cf. 9.2.5), a subset of about one hundred occurrences were selected. Thanks to the CPER LCHN support, a part of these occurrences have been annotated as "discourse particle" or "non discourse particle". Detailed analysis is in progress, with respect to the function (discourse particle or not), the type of speech corpus, and the associated prosodic features.

The fundamental frequency is one of the prosodic features. Numerous approaches exist for the computation of F0. Most of them lead to good performance on good quality speech. The performance degradation with respect to noise level has been studied on reference databases, for several (about ten) F0 detection approaches. It was observed that for each algorithm, a large part of the errors are due to incorrect voiced/unvoiced decision. Studies have also been initiated for computing a confidence measure on the estimated F0 values through the use of neural network approaches.