How can I plot multiple signals with unit step signal
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I need to plot this function:
v(t)=(2t+1)[u(t)-u(t-1)]+3[u(t-1)-u(t-2)]+(-t+3)[u(t-2)-u(t-3)]
Accepted Answer
Azzi Abdelmalek
on 15 Nov 2013
t=-5:0.1:5
v=(2*t+1).*(heaviside(t)-heaviside(t-1))+3*(heaviside(t-1)-heaviside(t-2))+(-t+3).*(heaviside(t-2)-heaviside(t-3))
plot(t,v,'linewidth',4)
1 Comment
Aous Younis
on 15 Nov 2013
More Answers (1)
Wayne King
on 15 Nov 2013
Edited: Wayne King
on 15 Nov 2013
Looks to me like this just simplifies to:
\delta(t) +3\delta(t-1) + \delta(t-2)
N = 128;
sig = zeros(N,1);
idx = 1:3;
sig(idx) = [1 3 1];
stem(sig)
u(t)-u(t-1) is like the derivative of the unit step at t, which is the delta function (distribution)
You can see it's equal if you implement your equation above using the differences of the translated unit step functions:
stepfunc = ones(128,4);
stepfunc(1,2) = 0;
stepfunc(1:2,3) = 0;
stepfunc(1:3,4) = 0;
t = (0:127)';
v1 = 2*t+1;
v2 = -t+3;
v = v1.*(stepfunc(:,1)-stepfunc(:,2))+ 3*(stepfunc(:,2)-stepfunc(:,3))+...
v2.*(stepfunc(:,3)-stepfunc(:,4));
subplot(211)
stem(v)
subplot(212)
stem(sig)
2 Comments
Azzi Abdelmalek
on 15 Nov 2013
From his post, the signal u seems to be continuous
Aous Younis
on 15 Nov 2013
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