PROGRAM:
clc;
clf;
clear;
bs = input('Enter the input bit sequence :');
f = input('Enter the modulating signal frequencies[f1 f2] :');
a = input('Enter the modulating signal amplitude :');
c = 0;
d = 0;
l = length(bs);
% code for generating binary signal
for i = 1:l
t1 = (c:0.01:c+1);
x = bs(i) * ones(length(t1),1);
subplot(2,1,1);
plot(t1,x);
axis([0 l -1 2]);
xlabel('time ->');
ylabel('amplitude ->');
title('binary signal');
hold on
c=c+1;
end
% code for generating bfsk signal
for i = 1:l
t=(d:0.01:d+1);
if (bs(i) == 0)
b = sin(2 * pi * f(1) * t);
else
b = sin(2 * pi * f(2) * t);
end
subplot(2,1,2);
plot(t,b);
xlabel('time ->');
ylabel('amplitude ->');
title('bfsk signal');
hold on
d=d+1;
end
SAMPLE OUTPUT:
Enter the input bit sequence :[0 1 0 1 1]
Enter the modulating signal frequencies[f1 f2] :[4 15]
Enter the modulating signal amplitude :3
PLOT:
clc;
clf;
clear;
bs = input('Enter the input bit sequence :');
f = input('Enter the modulating signal frequencies[f1 f2] :');
a = input('Enter the modulating signal amplitude :');
c = 0;
d = 0;
l = length(bs);
% code for generating binary signal
for i = 1:l
t1 = (c:0.01:c+1);
x = bs(i) * ones(length(t1),1);
subplot(2,1,1);
plot(t1,x);
axis([0 l -1 2]);
xlabel('time ->');
ylabel('amplitude ->');
title('binary signal');
hold on
c=c+1;
end
% code for generating bfsk signal
for i = 1:l
t=(d:0.01:d+1);
if (bs(i) == 0)
b = sin(2 * pi * f(1) * t);
else
b = sin(2 * pi * f(2) * t);
end
subplot(2,1,2);
plot(t,b);
xlabel('time ->');
ylabel('amplitude ->');
title('bfsk signal');
hold on
d=d+1;
end
SAMPLE OUTPUT:
Enter the input bit sequence :[0 1 0 1 1]
Enter the modulating signal frequencies[f1 f2] :[4 15]
Enter the modulating signal amplitude :3
PLOT:
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