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==Formant Analysis Using Wideband Spectographic Representation==
 
==Formant Analysis Using Wideband Spectographic Representation==
By [[user:BJH|Brandon Henman]]
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By [[user:BJH]] (Brandon Henman)
 
==Topic Background==
 
==Topic Background==
  
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==Methodology==
 
==Methodology==
Time Domain Representation of Signals:[[Image:SpeechSignals.png]]
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Time Domain Representation of Recorded Signals:
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[[Image:SpeechSignals.png]]
  
 
==Matlab Code==
 
==Matlab Code==

Revision as of 11:08, 22 November 2019

Formant Analysis Using Wideband Spectographic Representation

By user:BJH (Brandon Henman)

Topic Background

Audio Files

Custom-recorded, 16kHz sampling rate

Me saying "a" :Media:Vowels_voiced_a.wav ("ay")

Me saying "e" :Media:Vowels_voiced_e.wav ("ee")

Me saying "i" :Media:Vowels_voiced_i.wav ("eye")

Me saying "o" :Media:Vowels_voiced_o.wav ("oh")

Me saying "u" :Media:Vowels_voiced_u.wav ("yoo")


Methodology

Time Domain Representation of Recorded Signals:

SpeechSignals.png

Matlab Code

Spectogram Results

Wideband Spectogram of A:WbSpec a.png

Wideband Spectogram of E:WbSpec e.png

Wideband Spectogram of I:WbSpec i.png

Wideband Spectogram of O:WbSpec o.png

Wideband Spectogram of U:WbSpec u.png


Formant Analysis

Alumni Liaison

Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva