(New page: %Homework #1 %ECE 301 - Spring 2011 %Kyle Richmond %Part 1a: Play "Smoke on the Water" at original tempo tempo = 112; %Beats per minute delta = .00005; %Sampling rate %Frequencies of nece...)
 
 
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%Homework #1
 
%Homework #1
 +
 
%ECE 301 - Spring 2011
 
%ECE 301 - Spring 2011
 +
 
%Kyle Richmond
 
%Kyle Richmond
 +
  
 
%Part 1a: Play "Smoke on the Water" at original tempo
 
%Part 1a: Play "Smoke on the Water" at original tempo
 +
 
tempo = 112; %Beats per minute
 
tempo = 112; %Beats per minute
 +
 
delta = .00005; %Sampling rate
 
delta = .00005; %Sampling rate
 +
 
%Frequencies of necessary notes
 
%Frequencies of necessary notes
 +
 
G = (2^(-2/12))*440; %G note frequency
 
G = (2^(-2/12))*440; %G note frequency
 +
 
B_f = (2^(1/12))*440; %B flat note frequency
 
B_f = (2^(1/12))*440; %B flat note frequency
 +
 
C = (2^(3/12))*440; %C note frequency
 
C = (2^(3/12))*440; %C note frequency
 +
 
D_f = (2^(4/12))*440; %D flat note frequency
 
D_f = (2^(4/12))*440; %D flat note frequency
 +
 
%Time spans for necessary notes
 
%Time spans for necessary notes
 +
 
Q = [0:delta:(60/tempo)]; %Quarter note length
 
Q = [0:delta:(60/tempo)]; %Quarter note length
 +
 
DQ = [0:delta:(90/tempo)]; %Dotted quarter note length
 
DQ = [0:delta:(90/tempo)]; %Dotted quarter note length
 +
 
E = [0:delta:(30/tempo)]; %Eighth note length
 
E = [0:delta:(30/tempo)]; %Eighth note length
 +
 
H = [0:delta:(120/tempo)]; %Half note length
 
H = [0:delta:(120/tempo)]; %Half note length
 +
 
%Notes
 
%Notes
 +
 
G_Q = sin(2*pi*G*Q); %G quarter note
 
G_Q = sin(2*pi*G*Q); %G quarter note
 +
 
B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note
 
B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note
 +
 
C_DQ = sin(2*pi*C*DQ); %C dotted quarter note
 
C_DQ = sin(2*pi*C*DQ); %C dotted quarter note
 +
 
D_f_E = sin(2*pi*D_f*E); %D flat eighth note
 
D_f_E = sin(2*pi*D_f*E); %D flat eighth note
 +
 
C_H = sin(2*pi*C*H); %C half note
 
C_H = sin(2*pi*C*H); %C half note
 +
 
%Song
 
%Song
 +
 
smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];
 
smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];
 +
 
sound(smoke, 1/delta); %Play "Smoke on the Water"
 
sound(smoke, 1/delta); %Play "Smoke on the Water"
 +
 
%Create sound file
 
%Create sound file
 +
 
wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_Regular');
 
wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_Regular');
 +
  
 
%Part 1b: Play "Smoke on the Water" at twice the original tempo
 
%Part 1b: Play "Smoke on the Water" at twice the original tempo
 +
 
tempo = 224; %Beats per minute
 
tempo = 224; %Beats per minute
 +
 
delta = .00005; %Sampling rate
 
delta = .00005; %Sampling rate
 +
 
%Frequencies of necessary notes
 
%Frequencies of necessary notes
 +
 
G = (2^(-2/12))*440; %G note frequency
 
G = (2^(-2/12))*440; %G note frequency
 +
 
B_f = (2^(1/12))*440; %B flat note frequency
 
B_f = (2^(1/12))*440; %B flat note frequency
 +
 
C = (2^(3/12))*440; %C note frequency
 
C = (2^(3/12))*440; %C note frequency
 +
 
D_f = (2^(4/12))*440; %D flat note frequency
 
D_f = (2^(4/12))*440; %D flat note frequency
 +
 
%Time spans for necessary notes
 
%Time spans for necessary notes
 +
 
Q = [0:delta:(60/tempo)]; %Quarter note length
 
Q = [0:delta:(60/tempo)]; %Quarter note length
 +
 
DQ = [0:delta:(90/tempo)]; %Dotted quarter note length
 
DQ = [0:delta:(90/tempo)]; %Dotted quarter note length
 +
 
E = [0:delta:(30/tempo)]; %Eighth note length
 
E = [0:delta:(30/tempo)]; %Eighth note length
 +
 
H = [0:delta:(120/tempo)]; %Half note length
 
H = [0:delta:(120/tempo)]; %Half note length
 +
 
%Notes
 
%Notes
 +
 
G_Q = sin(2*pi*G*Q); %G quarter note
 
G_Q = sin(2*pi*G*Q); %G quarter note
 +
 
B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note
 
B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note
 +
 
C_DQ = sin(2*pi*C*DQ); %C dotted quarter note
 
C_DQ = sin(2*pi*C*DQ); %C dotted quarter note
 +
 
D_f_E = sin(2*pi*D_f*E); %D flat eighth note
 
D_f_E = sin(2*pi*D_f*E); %D flat eighth note
 +
 
C_H = sin(2*pi*C*H); %C half note
 
C_H = sin(2*pi*C*H); %C half note
 +
 
%Song
 
%Song
 +
 
smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];
 
smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];
 +
 
sound(smoke, 1/delta); %Play "Smoke on the Water"
 
sound(smoke, 1/delta); %Play "Smoke on the Water"
 +
 
%Create sound file
 
%Create sound file
 +
 
wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_Faster');
 
wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_Faster');
 +
  
 
%Part 1c: Play "Smoke on the Water" with transformation y(t)=x(2t)
 
%Part 1c: Play "Smoke on the Water" with transformation y(t)=x(2t)
 +
 
tempo = 112; %Beats per minute
 
tempo = 112; %Beats per minute
 +
 
delta = .00005; %Sampling rate
 
delta = .00005; %Sampling rate
 +
 
%Frequencies of necessary notes
 
%Frequencies of necessary notes
 +
 
G = (2^(-2/12))*880; %G note frequency
 
G = (2^(-2/12))*880; %G note frequency
 +
 
B_f = (2^(1/12))*880; %B flat note frequency
 
B_f = (2^(1/12))*880; %B flat note frequency
 +
 
C = (2^(3/12))*880; %C note frequency
 
C = (2^(3/12))*880; %C note frequency
 +
 
D_f = (2^(4/12))*880; %D flat note frequency
 
D_f = (2^(4/12))*880; %D flat note frequency
 +
 
%Time spans for necessary notes
 
%Time spans for necessary notes
 +
 
Q = [0:delta:(60/tempo)]; %Quarter note length
 
Q = [0:delta:(60/tempo)]; %Quarter note length
 +
 
DQ = [0:delta:(90/tempo)]; %Dotted quarter note length
 
DQ = [0:delta:(90/tempo)]; %Dotted quarter note length
 +
 
E = [0:delta:(30/tempo)]; %Eighth note length
 
E = [0:delta:(30/tempo)]; %Eighth note length
 +
 
H = [0:delta:(120/tempo)]; %Half note length
 
H = [0:delta:(120/tempo)]; %Half note length
 +
 
%Notes
 
%Notes
 +
 
G_Q = sin(2*pi*G*Q); %G quarter note
 
G_Q = sin(2*pi*G*Q); %G quarter note
 +
 
B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note
 
B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note
 +
 
C_DQ = sin(2*pi*C*DQ); %C dotted quarter note
 
C_DQ = sin(2*pi*C*DQ); %C dotted quarter note
 +
 
D_f_E = sin(2*pi*D_f*E); %D flat eighth note
 
D_f_E = sin(2*pi*D_f*E); %D flat eighth note
 +
 
C_H = sin(2*pi*C*H); %C half note
 
C_H = sin(2*pi*C*H); %C half note
 +
 
%Song
 
%Song
 +
 
smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];
 
smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];
 +
 
sound(smoke, 1/delta); %Play "Smoke on the Water"
 
sound(smoke, 1/delta); %Play "Smoke on the Water"
 +
 
%Create sound file
 
%Create sound file
 +
 
wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_HighPitch');
 
wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_HighPitch');
 +
  
 
%Part 2: Play a Beatles song in reverse
 
%Part 2: Play a Beatles song in reverse
 +
 
%Read the file
 
%Read the file
 +
 
[Beatles, fs] = wavread('Beatles.wav');
 
[Beatles, fs] = wavread('Beatles.wav');
 +
 
%Reverse the file
 
%Reverse the file
 +
 
Backwards = flipud(Beatles);
 
Backwards = flipud(Beatles);
 +
 
%Play the reversed file
 
%Play the reversed file
 +
 
sound(Backwards,fs);
 
sound(Backwards,fs);
 +
 
%Create sound file
 
%Create sound file
 +
 
wavwrite(Backwards,fs,32,'Kyle_Richmond_BeatlesReversed');
 
wavwrite(Backwards,fs,32,'Kyle_Richmond_BeatlesReversed');
 +
 
%The original file is the verse "Number nine" repeated several times
 
%The original file is the verse "Number nine" repeated several times
 +
 
%However, when the signal is reversed it sounds like they are saying
 
%However, when the signal is reversed it sounds like they are saying
 +
 
%"Turn me on dead man" repeatedly
 
%"Turn me on dead man" repeatedly
 +
  
 
[[Media:Kyle_Richmond_DeepPurple_Regular.wav]]
 
[[Media:Kyle_Richmond_DeepPurple_Regular.wav]]
 +
 
[[Media:Kyle_Richmond_DeepPurple_Faster.wav]]
 
[[Media:Kyle_Richmond_DeepPurple_Faster.wav]]
 +
 
[[Media:Kyle_Richmond_DeepPurple_HighPitch.wav]]
 
[[Media:Kyle_Richmond_DeepPurple_HighPitch.wav]]
 +
 
[[Media:Kyle_Richmond_BeatlesReversed.wav]]
 
[[Media:Kyle_Richmond_BeatlesReversed.wav]]

Latest revision as of 17:52, 18 January 2011

%Homework #1

%ECE 301 - Spring 2011

%Kyle Richmond


%Part 1a: Play "Smoke on the Water" at original tempo

tempo = 112; %Beats per minute

delta = .00005; %Sampling rate

%Frequencies of necessary notes

G = (2^(-2/12))*440; %G note frequency

B_f = (2^(1/12))*440; %B flat note frequency

C = (2^(3/12))*440; %C note frequency

D_f = (2^(4/12))*440; %D flat note frequency

%Time spans for necessary notes

Q = [0:delta:(60/tempo)]; %Quarter note length

DQ = [0:delta:(90/tempo)]; %Dotted quarter note length

E = [0:delta:(30/tempo)]; %Eighth note length

H = [0:delta:(120/tempo)]; %Half note length

%Notes

G_Q = sin(2*pi*G*Q); %G quarter note

B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note

C_DQ = sin(2*pi*C*DQ); %C dotted quarter note

D_f_E = sin(2*pi*D_f*E); %D flat eighth note

C_H = sin(2*pi*C*H); %C half note

%Song

smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];

sound(smoke, 1/delta); %Play "Smoke on the Water"

%Create sound file

wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_Regular');


%Part 1b: Play "Smoke on the Water" at twice the original tempo

tempo = 224; %Beats per minute

delta = .00005; %Sampling rate

%Frequencies of necessary notes

G = (2^(-2/12))*440; %G note frequency

B_f = (2^(1/12))*440; %B flat note frequency

C = (2^(3/12))*440; %C note frequency

D_f = (2^(4/12))*440; %D flat note frequency

%Time spans for necessary notes

Q = [0:delta:(60/tempo)]; %Quarter note length

DQ = [0:delta:(90/tempo)]; %Dotted quarter note length

E = [0:delta:(30/tempo)]; %Eighth note length

H = [0:delta:(120/tempo)]; %Half note length

%Notes

G_Q = sin(2*pi*G*Q); %G quarter note

B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note

C_DQ = sin(2*pi*C*DQ); %C dotted quarter note

D_f_E = sin(2*pi*D_f*E); %D flat eighth note

C_H = sin(2*pi*C*H); %C half note

%Song

smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];

sound(smoke, 1/delta); %Play "Smoke on the Water"

%Create sound file

wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_Faster');


%Part 1c: Play "Smoke on the Water" with transformation y(t)=x(2t)

tempo = 112; %Beats per minute

delta = .00005; %Sampling rate

%Frequencies of necessary notes

G = (2^(-2/12))*880; %G note frequency

B_f = (2^(1/12))*880; %B flat note frequency

C = (2^(3/12))*880; %C note frequency

D_f = (2^(4/12))*880; %D flat note frequency

%Time spans for necessary notes

Q = [0:delta:(60/tempo)]; %Quarter note length

DQ = [0:delta:(90/tempo)]; %Dotted quarter note length

E = [0:delta:(30/tempo)]; %Eighth note length

H = [0:delta:(120/tempo)]; %Half note length

%Notes

G_Q = sin(2*pi*G*Q); %G quarter note

B_f_Q = sin(2*pi*B_f*Q); %B flat quarter note

C_DQ = sin(2*pi*C*DQ); %C dotted quarter note

D_f_E = sin(2*pi*D_f*E); %D flat eighth note

C_H = sin(2*pi*C*H); %C half note

%Song

smoke = [G_Q,B_f_Q,C_DQ,G_Q,B_f_Q,D_f_E,C_H,G_Q,B_f_Q,C_DQ,B_f_Q,G_Q];

sound(smoke, 1/delta); %Play "Smoke on the Water"

%Create sound file

wavwrite(smoke,1/delta,32,'Kyle_Richmond_DeepPurple_HighPitch');


%Part 2: Play a Beatles song in reverse

%Read the file

[Beatles, fs] = wavread('Beatles.wav');

%Reverse the file

Backwards = flipud(Beatles);

%Play the reversed file

sound(Backwards,fs);

%Create sound file

wavwrite(Backwards,fs,32,'Kyle_Richmond_BeatlesReversed');

%The original file is the verse "Number nine" repeated several times

%However, when the signal is reversed it sounds like they are saying

%"Turn me on dead man" repeatedly


Media:Kyle_Richmond_DeepPurple_Regular.wav

Media:Kyle_Richmond_DeepPurple_Faster.wav

Media:Kyle_Richmond_DeepPurple_HighPitch.wav

Media:Kyle_Richmond_BeatlesReversed.wav

Alumni Liaison

Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

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