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The first guess is just sum up all the harmonics and get the result. But actually this doesn't work.
 
The first guess is just sum up all the harmonics and get the result. But actually this doesn't work.
 
The sound of a minor three interval sounds like this.
 
The sound of a minor three interval sounds like this.
 +
 
Note_A:
 
Note_A:
[[Audio_Signal_Generating_and_Processing_Project_FILES_Note_A.wav]]
+
 
 +
[[Media:Audio_Signal_Generating_and_Processing_Project_FILES_Note_A.wav]]
 +
 
 
Note_C:
 
Note_C:
[[Audio_Signal_Generating_and_Processing_Project_FILES_Note_C.wav]]
+
 
 +
[[Media:Audio_Signal_Generating_and_Processing_Project_FILES_Note_C.wav]]
 +
 
 
Distorted m3 interval.
 
Distorted m3 interval.
 +
 
[[Media:Audio_Signal_Generating_and_Processing_Project_FILES_failed_m3_interval.wav]]
 
[[Media:Audio_Signal_Generating_and_Processing_Project_FILES_failed_m3_interval.wav]]
  
  
 
[[ 2011 Fall ECE 438 Boutin|Back to 2011 Fall ECE 438 Boutin]]
 
[[ 2011 Fall ECE 438 Boutin|Back to 2011 Fall ECE 438 Boutin]]

Revision as of 16:18, 28 September 2011


Audio Signal Generating and Processing Project

- Abstract -

This project is intent to analysis different musical instrument's sound, and try to create artificial musical instrument sounds to play a piece.

First, by looking at the Fourier domain, one can and measure the amplitude of each harmonics. The intention is trying to produce similar amplitude harmonic cosine functions, and mix all the waveform together to construct a simulated instrument voice.

- Procedure -

First a couple of sound files are inspected. Particularly this single note piano sound was used. Take the FFT in MATLAB, the frequency domain of the graph looks like this.


Fft piano.png

Then one can record all the amplitude of different harmonics.

Next thing need to be done, is design a pattern that plays multiple notes at the same time. The first guess is just sum up all the harmonics and get the result. But actually this doesn't work. The sound of a minor three interval sounds like this.

Note_A:

Media:Audio_Signal_Generating_and_Processing_Project_FILES_Note_A.wav

Note_C:

Media:Audio_Signal_Generating_and_Processing_Project_FILES_Note_C.wav

Distorted m3 interval.

Media:Audio_Signal_Generating_and_Processing_Project_FILES_failed_m3_interval.wav


Back to 2011 Fall ECE 438 Boutin

Alumni Liaison

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

Francisco Blanco-Silva