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 [[Media:112bpm.wav|112bpm.wav]]
+
= ECE 301 Homework 1  =
  
 [[Media:224bpm.wav|224bpm.wav]]  
+
== Michael Meyer  ==
 +
 
 +
<source lang="matlab">clear all;
 +
 
 +
%%Question 1. Part 1.%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
 
 +
bpm = 112;
 +
 
 +
delta = 0.00005;
 +
 
 +
%%Note lengths.
 +
half = [0:delta:120/bpm];
 +
quart = [0:delta:60/bpm];
 +
eighth = [0:delta:30/bpm];
 +
dotquart = [0:delta:90/bpm];
 +
 
 +
%%Note Frequencies.
 +
gfreq = 2^(-2/12)*440;
 +
bffreq = 2^(1/12)*440;
 +
cfreq = 2^(3/12)*440;
 +
dffreq = 2^(4/12)*440;
 +
 
 +
%%Notes
 +
G = sin(2*pi*gfreq*quart);
 +
Bf = sin(2*pi*bffreq*quart);
 +
Cdq = sin(2*pi*cfreq*dotquart);
 +
Df = sin(2*pi*dffreq*eighth);
 +
Ch = sin(2*pi*cfreq*half);
 +
 
 +
%%Song
 +
song = [G, Bf, Cdq, G, Bf, Df, Ch, G, Bf, Cdq, Bf, G];
 +
 
 +
sound(song, 1/delta)
 +
wavwrite(song, 1/delta, '112bpm.wav')
 +
pause(1);
 +
 
 +
 
 +
%%Question 1. Part 2.%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
 
 +
bpmfast = 224;
 +
 
 +
%%Note lengths.
 +
half = [0:delta:120/bpmfast];
 +
quart = [0:delta:60/bpmfast];
 +
eighth = [0:delta:30/bpmfast];
 +
dotquart = [0:delta:90/bpmfast];
 +
 
 +
%%Notes
 +
G = sin(2*pi*gfreq*quart);
 +
Bf = sin(2*pi*bffreq*quart);
 +
Cdq = sin(2*pi*cfreq*dotquart);
 +
Df = sin(2*pi*dffreq*eighth);
 +
Ch = sin(2*pi*cfreq*half);
 +
 
 +
%%Fast Song
 +
fastsong = [G, Bf, Cdq, G, Bf, Df, Ch, G, Bf, Cdq, Bf, G];
 +
 
 +
sound(fastsong, 1/delta)
 +
wavwrite(fastsong, 1/delta, '224bpm.wav')
 +
pause(1);
 +
 
 +
%%Question 1. Part 3.%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
 
 +
bpm = 112;
 +
 
 +
delta = 0.00005;
 +
 
 +
%%Note lengths.
 +
half = [0:delta:120/bpm];
 +
quart = [0:delta:60/bpm];
 +
eighth = [0:delta:30/bpm];
 +
dotquart = [0:delta:90/bpm];
 +
 
 +
%%Note Frequencies.
 +
gfreq = 2^(-2/12)*440;
 +
bffreq = 2^(1/12)*440;
 +
cfreq = 2^(3/12)*440;
 +
dffreq = 2^(4/12)*440;
 +
 
 +
%%Notes
 +
G = sin(4*pi*gfreq*quart);
 +
Bf = sin(4*pi*bffreq*quart);
 +
Cdq = sin(4*pi*cfreq*dotquart);
 +
Df = sin(4*pi*dffreq*eighth);
 +
Ch = sin(4*pi*cfreq*half);
 +
 
 +
%%Song
 +
highsong = [G, Bf, Cdq, G, Bf, Df, Ch, G, Bf, Cdq, Bf, G];
 +
 
 +
sound(highsong, 1/delta)
 +
wavwrite(highsong, 1/delta, 'highpitch.wav')
 +
 
 +
%%Combining all songs into one.
 +
combined = horzcat(1, song, fastsong, highsong);
 +
 
 +
wavwrite(combined, 1/delta, 'combined.wav')</source><br>
 +
 
 +
<source lang="matlab">%%Question 2. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
 
 +
[Beatles, fs, N] = wavread('Beatles.wav');
 +
RevBeatles = flipud(Beatles);
 +
sound(RevBeatles, fs)
 +
wavwrite(RevBeatles, fs, N, 'seltaeB.wav');</source><br>
 +
 
 +
I believe that the message is "turn me on dead man", however my opinion was skewed from watching this video:&nbsp;[http://www.youtube.com/watch?v=PG0wksBzKSc www.youtube.com/watch]
 +
 
 +
Output Files:
 +
 
 +
[[Media:112bpm.wav|112bpm.wav]]
 +
 
 +
[[Media:224bpm.wav|224bpm.wav]]  
  
 
[[Media:Highpitch.wav|highpitch.wav]]  
 
[[Media:Highpitch.wav|highpitch.wav]]  
  
[[Media:combined.wav|combined.wav]]
+
[[Media:Combined.wav|combined.wav]]
 +
 
 +
[[Media:SeltaeB.wav|seltaeB.wav]]

Latest revision as of 01:39, 18 January 2011

ECE 301 Homework 1

Michael Meyer

clear all;
 
%%Question 1. Part 1.%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 
bpm = 112;
 
delta = 0.00005;
 
%%Note lengths.
half = [0:delta:120/bpm];
quart = [0:delta:60/bpm];
eighth = [0:delta:30/bpm];
dotquart = [0:delta:90/bpm];
 
%%Note Frequencies.
gfreq = 2^(-2/12)*440;
bffreq = 2^(1/12)*440;
cfreq = 2^(3/12)*440;
dffreq = 2^(4/12)*440;
 
%%Notes
G = sin(2*pi*gfreq*quart);
Bf = sin(2*pi*bffreq*quart);
Cdq = sin(2*pi*cfreq*dotquart);
Df = sin(2*pi*dffreq*eighth);
Ch = sin(2*pi*cfreq*half);
 
%%Song
song = [G, Bf, Cdq, G, Bf, Df, Ch, G, Bf, Cdq, Bf, G];
 
sound(song, 1/delta)
wavwrite(song, 1/delta, '112bpm.wav')
pause(1);
 
 
%%Question 1. Part 2.%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 
bpmfast = 224;
 
%%Note lengths.
half = [0:delta:120/bpmfast];
quart = [0:delta:60/bpmfast];
eighth = [0:delta:30/bpmfast];
dotquart = [0:delta:90/bpmfast];
 
%%Notes
G = sin(2*pi*gfreq*quart);
Bf = sin(2*pi*bffreq*quart);
Cdq = sin(2*pi*cfreq*dotquart);
Df = sin(2*pi*dffreq*eighth);
Ch = sin(2*pi*cfreq*half);
 
%%Fast Song
fastsong = [G, Bf, Cdq, G, Bf, Df, Ch, G, Bf, Cdq, Bf, G];
 
sound(fastsong, 1/delta)
wavwrite(fastsong, 1/delta, '224bpm.wav')
pause(1);
 
%%Question 1. Part 3.%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 
bpm = 112;
 
delta = 0.00005;
 
%%Note lengths.
half = [0:delta:120/bpm];
quart = [0:delta:60/bpm];
eighth = [0:delta:30/bpm];
dotquart = [0:delta:90/bpm];
 
%%Note Frequencies.
gfreq = 2^(-2/12)*440;
bffreq = 2^(1/12)*440;
cfreq = 2^(3/12)*440;
dffreq = 2^(4/12)*440;
 
%%Notes
G = sin(4*pi*gfreq*quart);
Bf = sin(4*pi*bffreq*quart);
Cdq = sin(4*pi*cfreq*dotquart);
Df = sin(4*pi*dffreq*eighth);
Ch = sin(4*pi*cfreq*half);
 
%%Song
highsong = [G, Bf, Cdq, G, Bf, Df, Ch, G, Bf, Cdq, Bf, G];
 
sound(highsong, 1/delta)
wavwrite(highsong, 1/delta, 'highpitch.wav')
 
%%Combining all songs into one.
combined = horzcat(1, song, fastsong, highsong);
 
wavwrite(combined, 1/delta, 'combined.wav')

%%Question 2. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 
[Beatles, fs, N] = wavread('Beatles.wav');
RevBeatles = flipud(Beatles);
sound(RevBeatles, fs)
wavwrite(RevBeatles, fs, N, 'seltaeB.wav');

I believe that the message is "turn me on dead man", however my opinion was skewed from watching this video: www.youtube.com/watch

Output Files:

112bpm.wav

224bpm.wav

highpitch.wav

combined.wav

seltaeB.wav

Alumni Liaison

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

Dr. Paul Garrett