(21 intermediate revisions by the same user not shown)
Line 1: Line 1:
== Creating the Star Spangled Banner in MATLAB==
+
== Coding the Star Spangled Banner in MATLAB==
Sophia Gould
+
<br />Using the sound function in Matlab, we are able to create a song using sine waves with specific frequencies. Each note has certain frequency that corresponds to it and through sine waves and putting it into the sound function we are able to create a song. Below is an example of MATLAB code that can be used to play the star spangled banner. <br /> <br />
 
+
This section of the code sets the timing for the notes, each time represents what the length of a beat will be. <br />
Using the sound function in Matlab, we are able to create a song using sine waves with specific frequencies. Each note has certain frequency that corresponds to it and through sine waves and putting it into the sound function we are able to create a song. <br /> <br />
+
 
<small>
 
<small>
 +
 
delta = 1/8192;<br />
 
delta = 1/8192;<br />
t1 = 0:delta:1/2; <br />
+
t1 = 0:delta:1/2; <br />  
t2 = 0:delta:1;<br />
+
t2 = 0:delta:1; <br />                              
 
t3 = 0:delta:1/3;<br />
 
t3 = 0:delta:1/3;<br />
 
t4 = 0:delta:1/4;<br />
 
t4 = 0:delta:1/4;<br />
 
t5 = 0:delta:3/4;<br />
 
t5 = 0:delta:3/4;<br />
 
tf = 0:delta:2;<br />
 
tf = 0:delta:2;<br />
 +
</small>
 +
 +
Below is the declarations for all of the notes I use in this song. Notice that t is multiplied by different numbers representing the different frequencies of all the notes.
 +
<small>
  
 
A5 = sin(2*pi*440*t1);<br />
 
A5 = sin(2*pi*440*t1);<br />
Line 17: Line 21:
 
E5 = sin(2*pi*659*t1);<br />
 
E5 = sin(2*pi*659*t1);<br />
 
G5 = sin(2*pi*784*t1);<br />
 
G5 = sin(2*pi*784*t1);<br />
 +
</small>
 +
 +
Notice that some notes are declared twice using different "t"s. This is because during certain instances in the song, the same note needs to be held for different lengths of time. <br />
 +
<small>
  
G52 = sin(2*pi*784*t2);<br />
 
C62 = sin(2*pi*1047*t2);<br />
 
 
B52 = sin(2*pi*494*t2);<br />
 
B52 = sin(2*pi*494*t2);<br />
E52 = sin(2*pi*659*t2);<br />
 
 
C52 = sin(2*pi*523*t2);<br />
 
C52 = sin(2*pi*523*t2);<br />
B52 = sin(2*pi*494*t2);<br />
+
E52 = sin(2*pi*659*t2);<br />
E62 = sin(2*pi*1319*t2);<br />
+
G52 = sin(2*pi*784*t2);<br />
D62 = sin(2*pi*1175*t2);<br />
+
 
B62 = sin(2*pi*988*t2);<br />
 
B62 = sin(2*pi*988*t2);<br />
 +
C62 = sin(2*pi*1047*t2);<br />
 +
D62 = sin(2*pi*1175*t2);<br />
 +
E62 = sin(2*pi*1319*t2);<br />
 
F62 = sin(2*pi*1397*t2);<br />
 
F62 = sin(2*pi*1397*t2);<br />
 
G62 = sin(2*pi*1568*t2);<br />
 
G62 = sin(2*pi*1568*t2);<br />
Line 33: Line 40:
 
FS6 = sin(2*pi*1479.978*t1);<br />
 
FS6 = sin(2*pi*1479.978*t1);<br />
  
C63 = sin(2*pi*1047*t3);<br />
+
B53 = sin(2*pi*494*t3);<br />
D63 = sin(2*pi*1175*t3);<br />
+
C53 = sin(2*pi*523*t3);<br />
E63 = sin(2*pi*1319*t3);<br />
+
E53 = sin(2*pi*659*t3);<br />
 
G53 = sin(2*pi*784*t3);<br />
 
G53 = sin(2*pi*784*t3);<br />
 
A63 = sin(2*pi*880*t3);<br />
 
A63 = sin(2*pi*880*t3);<br />
E53 = sin(2*pi*659*t3);<br />
 
B53 = sin(2*pi*494*t3);<br />
 
 
B63 = sin(2*pi*988*t3);<br />
 
B63 = sin(2*pi*988*t3);<br />
 +
C63 = sin(2*pi*1047*t3);<br />
 +
D63 = sin(2*pi*1175*t3);<br />
 +
E63 = sin(2*pi*1319*t3);<br />
 
F63 = sin(2*pi*1397*t3);<br />
 
F63 = sin(2*pi*1397*t3);<br />
 
G63 = sin(2*pi*1568*t3);<br />
 
G63 = sin(2*pi*1568*t3);<br />
C53 = sin(2*pi*523*t3);<br />
 
  
 +
A54 = sin(2*pi*440*t4);<br />
 +
B54 = sin(2*pi*494*t4);<br />
 
G54 = sin(2*pi*784*t4);<br />
 
G54 = sin(2*pi*784*t4);<br />
 
E54 = sin(2*pi*659*t4);<br />
 
E54 = sin(2*pi*659*t4);<br />
E64 = sin(2*pi*1319*t4);<br />
+
A64 = sin(2*pi*880*t4);<br />
D64 = sin(2*pi*1175*t4);<br />
+
 
B64 = sin(2*pi*988*t4);<br />
 
B64 = sin(2*pi*988*t4);<br />
 
C64 = sin(2*pi*1047*t4);<br />
 
C64 = sin(2*pi*1047*t4);<br />
G64 = sin(2*pi*1568*t4);<br />
+
D64 = sin(2*pi*1175*t4);<br />
 +
E64 = sin(2*pi*1319*t4);<br />
 
F64 = sin(2*pi*1397*t4);<br />
 
F64 = sin(2*pi*1397*t4);<br />
A64 = sin(2*pi*880*t4);<br />
+
G64 = sin(2*pi*1568*t4);<br />
A54 = sin(2*pi*440*t4);<br />
+
B54 = sin(2*pi*494*t4);<br />
+
  
 
C55 = sin(2*pi*523*t5);<br />
 
C55 = sin(2*pi*523*t5);<br />
 +
E55 = sin(2*pi*659*t5);<br />
 
C65 = sin(2*pi*1047*t5);<br />
 
C65 = sin(2*pi*1047*t5);<br />
E55 = sin(2*pi*659*t5);<br />
 
 
C6f = sin(2*pi*1047*tf);<br />
 
C6f = sin(2*pi*1047*tf);<br />
  
Line 69: Line 76:
 
F6 = sin(2*pi*1397*t1);<br />
 
F6 = sin(2*pi*1397*t1);<br />
 
G6 = sin(2*pi*1568*t1);<br />
 
G6 = sin(2*pi*1568*t1);<br />
p = sin(2*pi*1*t1);<br />
 
  
sound([G53,E54,C52,E5,G5,C62,p,E63, ...<br />
+
p = sin(2*pi*1*t1); %this represents a pause in the music<br />
    D64,C62,E5,FS,G52,p,G53,G53,E62, ...<br />
+
</small>
    D63,C6,B62,p,A63,B64,C62,C6,G5,E5, ...<br />
+
 
    C52,p,E5,G53,C52,E5,G5,C62,p,E6, ...<br />
+
Below is the MATLAB sound() function set up so that it plays the notes in order for the Star Spangled Banner. <br />
    D63,C62,E5,FS,G52,p,G5,G53,E62,D6, ...<br />
+
<small>
    C6,B62,p,A6,B63,C62,C6,G5,E5,C5,p, ...<br />
+
 
    E64,E64,E62,F6,G6,G62,p,F64,E64,D62, ...<br />
+
sound([G53,E54,C52,E5,G5,C62,p, ... <br />
    E6,F6,F62,p,F6,E62,D64,C6,B62,p,A64, ...<br />
+
E63, D64,C62,E5,FS,G52,p, ... <br />
    B64,C62,E5,FS,G52,p,G5,C6,C6,C64, ...<br />
+
G53,G53,E62,D63,C6,B62,p, ... <br />
    B64,A6,A6,A6,D6,F63,E6,D63,C62,B6, ...<br />
+
A63,B64,C62,C6,G5,E5,C52,p, ... <br />
    p,G53,G53,C62,D63,E63,F63,G62,p,C63, ...<br />
+
E5,G53,C52,E5,G5,C62,p, ... <br />
    D63,E62,F6,D6,C6f]);<br />
+
E6,D63,C62,E5,FS,G52,p, ... <br />
 +
G5,G53,E62,D6,C6,B62,p, ... <br />
 +
A6,B63,C62,C6,G5,E5,C5,p, ... <br />
 +
E64,E64,E62,F6,G6,G62,p, ... <br />
 +
F64,E64,D62,E6,F6,F62,p, ... <br />
 +
F6,E62,D64,C6,B62,p, ... <br />
 +
A64,B64,C62,E5,FS,G52,p, ... <br />
 +
G5,C6,C6,C64,B64,A6,A6,A6,D6,F63,E6,D63,C62,B6,p, ... <br />
 +
G53,G53,C62,D63,E63,F63,G62,p, ... <br />
 +
C63,D63,E62,F6,D6,C6f]); <br />
 
</small>
 
</small>

Latest revision as of 23:55, 2 December 2018

Coding the Star Spangled Banner in MATLAB


Using the sound function in Matlab, we are able to create a song using sine waves with specific frequencies. Each note has certain frequency that corresponds to it and through sine waves and putting it into the sound function we are able to create a song. Below is an example of MATLAB code that can be used to play the star spangled banner.

This section of the code sets the timing for the notes, each time represents what the length of a beat will be.

delta = 1/8192;
t1 = 0:delta:1/2;
t2 = 0:delta:1;
t3 = 0:delta:1/3;
t4 = 0:delta:1/4;
t5 = 0:delta:3/4;
tf = 0:delta:2;

Below is the declarations for all of the notes I use in this song. Notice that t is multiplied by different numbers representing the different frequencies of all the notes.

A5 = sin(2*pi*440*t1);
C5 = sin(2*pi*523*t1);
D5 = sin(2*pi*587*t1);
E5 = sin(2*pi*659*t1);
G5 = sin(2*pi*784*t1);

Notice that some notes are declared twice using different "t"s. This is because during certain instances in the song, the same note needs to be held for different lengths of time.

B52 = sin(2*pi*494*t2);
C52 = sin(2*pi*523*t2);
E52 = sin(2*pi*659*t2);
G52 = sin(2*pi*784*t2);
B62 = sin(2*pi*988*t2);
C62 = sin(2*pi*1047*t2);
D62 = sin(2*pi*1175*t2);
E62 = sin(2*pi*1319*t2);
F62 = sin(2*pi*1397*t2);
G62 = sin(2*pi*1568*t2);

FS = sin(2*pi*739.989*t1);
FS6 = sin(2*pi*1479.978*t1);

B53 = sin(2*pi*494*t3);
C53 = sin(2*pi*523*t3);
E53 = sin(2*pi*659*t3);
G53 = sin(2*pi*784*t3);
A63 = sin(2*pi*880*t3);
B63 = sin(2*pi*988*t3);
C63 = sin(2*pi*1047*t3);
D63 = sin(2*pi*1175*t3);
E63 = sin(2*pi*1319*t3);
F63 = sin(2*pi*1397*t3);
G63 = sin(2*pi*1568*t3);

A54 = sin(2*pi*440*t4);
B54 = sin(2*pi*494*t4);
G54 = sin(2*pi*784*t4);
E54 = sin(2*pi*659*t4);
A64 = sin(2*pi*880*t4);
B64 = sin(2*pi*988*t4);
C64 = sin(2*pi*1047*t4);
D64 = sin(2*pi*1175*t4);
E64 = sin(2*pi*1319*t4);
F64 = sin(2*pi*1397*t4);
G64 = sin(2*pi*1568*t4);

C55 = sin(2*pi*523*t5);
E55 = sin(2*pi*659*t5);
C65 = sin(2*pi*1047*t5);
C6f = sin(2*pi*1047*tf);

A6 = sin(2*pi*880*t1);
B6 = sin(2*pi*988*t1);
C6 = sin(2*pi*1047*t1);
D6 = sin(2*pi*1175*t1);
E6 = sin(2*pi*1319*t1);
F6 = sin(2*pi*1397*t1);
G6 = sin(2*pi*1568*t1);

p = sin(2*pi*1*t1); %this represents a pause in the music

Below is the MATLAB sound() function set up so that it plays the notes in order for the Star Spangled Banner.

sound([G53,E54,C52,E5,G5,C62,p, ...
E63, D64,C62,E5,FS,G52,p, ...
G53,G53,E62,D63,C6,B62,p, ...
A63,B64,C62,C6,G5,E5,C52,p, ...
E5,G53,C52,E5,G5,C62,p, ...
E6,D63,C62,E5,FS,G52,p, ...
G5,G53,E62,D6,C6,B62,p, ...
A6,B63,C62,C6,G5,E5,C5,p, ...
E64,E64,E62,F6,G6,G62,p, ...
F64,E64,D62,E6,F6,F62,p, ...
F6,E62,D64,C6,B62,p, ...
A64,B64,C62,E5,FS,G52,p, ...
G5,C6,C6,C64,B64,A6,A6,A6,D6,F63,E6,D63,C62,B6,p, ...
G53,G53,C62,D63,E63,F63,G62,p, ...
C63,D63,E62,F6,D6,C6f]);

Alumni Liaison

Sees the importance of signal filtering in medical imaging

Dhruv Lamba, BSEE2010