Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features

Classroom speech intelligibility is a measure of how well a speech or word is understood in the classroom. It is a measure of the speech quality in the classroom. Numbers of methods have been proposed by various researchers to improve the speech intelligibility. However, the proposed methods are...

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Main Author: Mohammad Ridhwan, Tamjis
Format: Thesis
Language:English
Published: Universiti Malaysia Perlis (UniMAP) 2014
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Online Access:http://dspace.unimap.edu.my:80/dspace/handle/123456789/31306
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spelling my.unimap-313062014-01-19T08:41:36Z Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features Mohammad Ridhwan, Tamjis Speech intelligibility Classroom speech Prediction Speech quality measure Speech amplification Classroom speech intelligibility is a measure of how well a speech or word is understood in the classroom. It is a measure of the speech quality in the classroom. Numbers of methods have been proposed by various researchers to improve the speech intelligibility. However, the proposed methods are effective only in the design stage of the classroom, as implementation in the ‘old’ classroom is costly and time consuming. Thus, speech amplification is implemented to tackle such problems. There are methods suggested by audio expert on how to properly setup the system in the classroom, in order to maximize the speech intelligibility. However, the methods are rather complicated and time consuming. So, as an alternative, this research has proposed an audio-feature based speech intelligibility prediction system. The goal of this research is to develop an intelligent speech intelligibility prediction system by combining audio-features (spectral rolloff (SR), spectral centroid (SC), power (PO), zero-crossings rate (ZCR), and short time energy (STE)) and classifiers (feed forward neural network (FFNN), Elman network (ENN)). To achieve the goal, this research has collected data samples which comprises of speech recordings in the speech amplified classrooms, as well as the physical properties. The measurement was done in eight different classrooms in UniMAP, and the measurement protocol was derived from the previous researches and acoustic standards. The data collected were then analyzed using statistical approach, such as descriptive analysis and ANOVA. The data were then pre-processed to assist the later feature extraction process. The preprocessed signals were then undergone feature extraction process to extract the audio features. In this research, five types of audio features have been selected, and each feature is then combined with the classroom’s physical feature data as inputs of the experimented classifiers. As a result, it was found that audio feature PO yield the best accuracy, regardless the type of classifiers when compared to the other features. At the end, the interface system for the audio feature-based classroom speech intelligibility prediction system is developed. Moreover, a database of classroom speech intelligibility measurement using single microphone was compiled. 2014-01-19T08:41:36Z 2014-01-19T08:41:36Z 2012 Thesis http://dspace.unimap.edu.my:80/dspace/handle/123456789/31306 en Universiti Malaysia Perlis (UniMAP) School of Mechatronic Engineering
institution Universiti Malaysia Perlis
building UniMAP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Perlis
content_source UniMAP Library Digital Repository
url_provider http://dspace.unimap.edu.my/
language English
topic Speech intelligibility
Classroom speech
Prediction
Speech quality measure
Speech amplification
spellingShingle Speech intelligibility
Classroom speech
Prediction
Speech quality measure
Speech amplification
Mohammad Ridhwan, Tamjis
Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features
description Classroom speech intelligibility is a measure of how well a speech or word is understood in the classroom. It is a measure of the speech quality in the classroom. Numbers of methods have been proposed by various researchers to improve the speech intelligibility. However, the proposed methods are effective only in the design stage of the classroom, as implementation in the ‘old’ classroom is costly and time consuming. Thus, speech amplification is implemented to tackle such problems. There are methods suggested by audio expert on how to properly setup the system in the classroom, in order to maximize the speech intelligibility. However, the methods are rather complicated and time consuming. So, as an alternative, this research has proposed an audio-feature based speech intelligibility prediction system. The goal of this research is to develop an intelligent speech intelligibility prediction system by combining audio-features (spectral rolloff (SR), spectral centroid (SC), power (PO), zero-crossings rate (ZCR), and short time energy (STE)) and classifiers (feed forward neural network (FFNN), Elman network (ENN)). To achieve the goal, this research has collected data samples which comprises of speech recordings in the speech amplified classrooms, as well as the physical properties. The measurement was done in eight different classrooms in UniMAP, and the measurement protocol was derived from the previous researches and acoustic standards. The data collected were then analyzed using statistical approach, such as descriptive analysis and ANOVA. The data were then pre-processed to assist the later feature extraction process. The preprocessed signals were then undergone feature extraction process to extract the audio features. In this research, five types of audio features have been selected, and each feature is then combined with the classroom’s physical feature data as inputs of the experimented classifiers. As a result, it was found that audio feature PO yield the best accuracy, regardless the type of classifiers when compared to the other features. At the end, the interface system for the audio feature-based classroom speech intelligibility prediction system is developed. Moreover, a database of classroom speech intelligibility measurement using single microphone was compiled.
format Thesis
author Mohammad Ridhwan, Tamjis
author_facet Mohammad Ridhwan, Tamjis
author_sort Mohammad Ridhwan, Tamjis
title Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features
title_short Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features
title_full Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features
title_fullStr Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features
title_full_unstemmed Classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features
title_sort classroom speech intelligibility prediction system for front-rear speech amplified classroom based on audio features
publisher Universiti Malaysia Perlis (UniMAP)
publishDate 2014
url http://dspace.unimap.edu.my:80/dspace/handle/123456789/31306
_version_ 1643796473342590976
score 13.214268