Revision as of 13:17, 5 September 2008 by Sranka (Talk)

sound files

File Media:songfoward_ECE301Fall2008mboutin.wav File Media:songrevrese_ECE301Fall2008mboutin.wav File Media:songslow_ECE301Fall2008mboutin.wav

matlab command

%Sourabh Ranka
%email== sranka@purdue.edu
%ece 301

%to clear data
clear;
clc;

%using the waveread command to convert the .wav file to the digital signal 'song'
[song, samplerate, bitspersample] = wavread('H:\pu.data\Desktop\Jpforward.wav');

%using the waveplay command to listen the digital signal we have just converted at 44100 hz sampling rate
wavplay(song, samplerate);

songback = flipud(song);
%to play the file backwardwe use the waveplay command and it runs it at the same frequency as the original sample rate  
wavplay(songback, samplerate);

%to play  the song at half the sample rate
wavplay (songback,samplerate*0.5);

% to write the program on wave file
wavwrite(song,samplerate,bitspersample,'H:\pu.data\Desktop\songforward.wav');
wavwrite(songback,samplerate,bitspersample,'H:\pu.data\Desktop\songbackward.wav');
wavwrite(songback,samplerate*0.5,bitspersample,'H:\pu.data\Desktop\songslow.wav');

Alumni Liaison

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

Francisco Blanco-Silva