Clark School Home UMD

ISR Events Calendar

Event Information

Ph.D. Dissertation Defense: Ganesh Sivaraman
Thursday, October 12, 2017
1:00 p.m.
AVW 2460
For More Information:
Maria Hoo
301 405 3681
mch@umd.edu

 

ANNOUNCEMENT: Ph.D. Dissertation Defense

 

Name: Ganesh Sivaraman

 

Committee Members:
Professor Carol Espy-Wilson, Chair
Professor Shihab Shamma,
Professor Behtash Babadi
Professor Jonathan Z. Simon
Dr. Vikramjit Mitra
Professor William J. Idsardi, Dean’s Representative

 

Date/Time: Thursday, October 12, 2017 at 1.00pm

 

Place: AVW 2460

 

Title: Articulatory representations to address acoustic variability in speech

 

Abstract:
The past decade has seen phenomenal improvement in the performance of Automatic Speech Recognition (ASR) systems. In spite of this vast improvement in performance, the state-of-the-art still lags significantly behind human speech recognition. Even though certain systems claim super-human performance, this performance often is sub-par across domains and across datasets. This gap is predominantly due to the lack of robustness against speech variability. Even clean speech is extremely variable due to a large number of factors such as voice characteristics, speaking style, speaking rate, accents, casualness, emotions and more. The goal of this thesis is to investigate the variability of speech from the perspective of speech production, put forth robust articulatory features to address this variability, and to incorporate these features in state-of-the-art ASR systems in the best way possible.

 

ASR systems model speech as a sequence of distinctive phone units like beads on a string. Although phonemes are distinctive units in the cognitive domain, their physical realizations are extremely varied due to coarticulation and lenition which are commonly observed in conversational speech. The traditional approaches deal with this issue by performing di-, tri- or quin-phone based acoustic modeling but are insufficient to model longer contextual dependencies. Articulatory phonology analyzes speech as a constellation of coordinated articulatory gestures performed by the articulators in the vocal tract (lips, tongue tip, tongue body, jaw, glottis and velum). In this framework, acoustic variability is explained by the temporal overlap of gestures and their reduction in space. In order to analyze speech in terms of articulatory gestures, the gestures need to be estimated from the speech signal.

 

The first part of the thesis focuses on a speaker independent acoustic-to-articulatory inversion system that was developed to estimate vocal tract constriction variables (TVs) from speech. The mapping from acoustics to TVs was learned from the multi-speaker X-ray Microbeam (XRMB) articulatory dataset. Constriction regions from TV trajectories were defined as articulatory gestures using articulatory kinematics. The speech inversion system combined with the TV kinematics based gesture annotation provided a system to estimate articulatory gestures from speech.

 

The second part of this thesis deals with the analysis of the articulatory trajectories under different types of variability such as multiple speakers, speaking rate, and accents. It was observed that speaker variation degraded the performance of the speech inversion system. A Vocal Tract Length Normalization (VTLN) based speaker normalization technique was therefore developed to address the speaker variability in the acoustic and articulatory domains. The performance of speech inversion systems was analyzed on an articulatory dataset containing speaking rate variations to assess if the model was able to reliably predict the TVs in challenging coarticulatory scenarios. The performance of the speech inversion system was analyzed in cross accent and cross language scenarios through experiments on a Dutch and British English articulatory dataset. These experiments provide a quantitative measure of the robustness of the speech inversion systems to different speech variability.

 

The final part of this thesis deals with the incorporation of articulatory features in state-of-the-art medium vocabulary ASR systems. A hybrid convolutional neural network (CNN) architecture was developed to fuse the acoustic and articulatory feature streams in an ASR system. ASR experiments were performed on the Wall Street Journal (WSJ) corpus. Several articulatory feature combinations were explored to determine the best feature combination. Cross-corpus evaluations were carried out to evaluate the WSJ trained ASR system on the TIMIT and another dataset containing speaking rate variability. Results showed that combining articulatory features with acoustic features through the hybrid CNN improved the performance of the ASR system in matched and mismatched evaluation conditions.

 

The findings based on this dissertation indicate that articulatory representations extracted from acoustics can be used to address acoustic variability in speech observed due to speakers, accents, and speaking rates and further be used to improve the performance of Automatic Speech Recognition systems.

 

 

 

This Event is For: Graduate • Faculty

Browse Events By Calendar

Calendar Home

« Previous Month    Next Month »

October 2017
SU M TU W TH F SA
1 2 3 4 5 6 7 w
8 9 10 11 12 13 14 w
15 16 17 18 19 20 21 w
22 23 24 25 26 27 28 w
29 30 31 w

Search Events


ISR lecture and seminar series

Distinguished Lecturer Series
Intelligent Automation Inc. Colloquia Series
Microsystems Seminar Series
Lockheed Martin Robotics Seminar Series
Advanced Networks Colloquia Series
Model-Based Systems Engineering Colloquia Series

Submit an event to the ISR calendar Click here

News links

Current news
Search news
News archives