Recent Advances in Robust Speech Recognition Technology

by

Javier Ramírez, Juan Manuel Górriz

DOI: 10.2174/9781608051724111010
eISBN: 978-1-60805-172-4, 2011
ISBN: 978-1-60805-389-6



Indexed in: Scopus, EBSCO.

This E-book is a collection of articles that describe advances in speech recognition technology. Robustness in speech recognition refe...[view complete introduction]
US $
Buy Personal eBook
21
Order Library eBook
84
Order Printed Copy
*92
Order PDF + Printed Copy (Special Offer)
*102

*(Excluding Mailing and Handling)

🔒Secure Checkout Personal information is secured with SSL technology

Higher Order Cepstral Moment Normalization for Improved Robust Speech Recognition

- Pp. 175-189 (15)

Chang-Wen Hsu and Lin-Shan Lee

Abstract

Cepstral normalization has widely been used as a powerful approach to produce robust features for speech recognition. Good examples of this approach include Cepstral Mean Subtraction, and Cepstral Mean and Variance Normalization, in which either the first or both the first and the second moments of the Mel-frequency Cepstral Coefficients (MFCCs) are normalized. In this chapter, we propose the family of Higher Order Cepstral Moment Normalization, in which the MFCC parameters are normalized with respect to a few moments of orders higher than 1 or 2. The basic idea is that the higher order moments are more dominated by samples with larger values, which are very likely the primary sources of the asymmetry and abnormal flatness or tail size of the parameter distributions. Normalization with respect to these moments therefore puts more emphasis on these signal components and constrains the distributions to be more symmetric with more reasonable flatness and tail size. The fundamental principles behind this approach are also analyzed and discussed based on the statistical properties of the distributions of the MFCC parameters. Experimental results based on the AURORA 2, AURORA 3, AURORA 4 testing environments show that with the proposed approach, recognition accuracy can be significantly and consistently improved for all types of noise and all SNR conditions.

Purchase Chapter  Book Details

Advertisement


Webmaster Contact: info@benthamscience.net Copyright © 2019 Bentham Science