Line 1: Line 1:
 +
Sound file [[Image:Example_ECE301Fall2008mboutin.jpg]]
  
 
== MATLAB code ==
 
== MATLAB code ==

Latest revision as of 11:40, 2 September 2008

Sound file Example ECE301Fall2008mboutin.jpg

MATLAB code

% Ben Laskowski (blaskows@purdue.edu)
% September 5, 2008
% ECE301 Section 2 HW1
%
% This file is supposed to reverse and slow a wav file for extraction of
% alleged subliminal messages.

% Begin by clearing the output console and all memory.
clear;
clc;

%Open the wave file and get its length, sample size, and sampling rate
[data,fs,nbits]=wavread('jpforward.wav');

%Play the file once normally
disp('Playing the unaltered file...')
wavplay(data,fs);

%Reverse the file, play it, and write it out
Length=size(data);
MaxCount=Length(1);
reversedata=zeros(MaxCount,1);
for counter=MaxCount:-1:1
    reversedata(MaxCount-counter+1,1)=data(counter);
end
disp('Playing reverse at normal speed...');
wavplay(reversedata,fs);


%To slow the original data, we can just write out the reversed data with
% a fraction of the correct sampling rate.
disp('Playing reverse at 67% speed...');
wavwrite(reversedata,fs/1.5,nbits,'jpreverseslow.wav');
wavplay(reversedata,fs/1.5);

Alumni Liaison

Abstract algebra continues the conceptual developments of linear algebra, on an even grander scale.

Dr. Paul Garrett