Monday, January 12, 2015 — 10:00 AM EST

Candidate

Seyyed Pouria Fewzee-Youssefi

Title

Affective Speech Recognition

Supervisor

Fakhreddine Karray

Abstract

Speech, as a medium of interaction, carries two different streams of information. Whereas one stream carries explicit messages, the other one contains implicit information about speakers themselves. Affective speech recognition is a set of theories and tools that intend to automate unfolding the part of the implicit stream that has to do with humans emotion. Application of affective speech recognition is to human computer interaction; a machine that is enable to recognize humans emotion could engage the user in a more effective interaction. This thesis proposes a set of analyses and methodologies that advance automatic recognition of affect from speech. The proposed solution spans two dimensions of the problem: speech signal processing, and statistical learning.

At the speech signal processing dimension, extraction of speech low-level descriptors is discussed, and a set of descriptors that exploit the spectrum of the signal are proposed. Moreover, considering the non-stationary property of the speech signal, further proposed is a measure of dynamicity that captures that property of speech by quantifying changes of the signal over time. Furthermore, based on the proposed set of low-level descriptors, it is shown that individual human beings are different in conveying emotions, and that varying parts of the spectrum hold the affective information for different speakers. Therefore, the concept of emotion profile is proposed in this thesis that formalizes those differences by taking into account different factors such as cultural and gender-specific differences, as well as those distinctions that have to do with individual human beings.

At the statistical learning dimension, variable selection is performed to identify speech features that are most important to extracting affective information. In doing so, low-level descriptors are distinguished from statistical functionals, therefore, effectiveness of each of the two are studied dependently and independently. The major importance of variable selection as a standalone component of a solution is to real-time application of affective speech recognition. Although thousands of speech features are commonly used to tackle this problem in theory, extraction of that many features in a real-time manner is unrealistic, especially for mobile platforms.

At the core of an affective speech recognition solution is a statistical model that uses speech features to recognize emotions. Such a model comes with a set of parameters that are estimated through a learning process. Proposed in this thesis is a learning algorithm, developed based on the notion of Hilbert-Schmidt independence criterion and named max-dependence regression, that maximizes the dependence between predicted and actual values of affective qualities.

Lastly, sparse representation for affective speech datasets is considered in this thesis. For this purpose, the application of a dictionary learning algorithm based on Hilbert-Schmidt independence criterion is proposed. Dictionary learning is used to identify the most important bases of the data, in order to improve the generalization capability of the proposed solution to affective speech recognition.

Location 
EIT building
Room 3142

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