Plotting a unit step function without heaviside.

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Hannah Chamberlain
Hannah Chamberlain am 4 Feb. 2017
Beantwortet: Sam Chak am 17 Jul. 2024
So for my class I need to be able to plot
Xg(t)= u(t+1)-2u(t-1)+u(t-3)
Xh(t)=(t+1_u(t-1)-tu(t)-u(t-2)
and a whole other host of things but for these ones I'm confused on how to do it without the heaviside function. I got an answer for just u(t) was:
t = (-1:0.01:5)';
unitstep = t>=0;
plot(t,unitstep)
This worked.
When I tried to get it to shift instead the line became more of a ramp function.
t = (-1:0.01:5)';
unitstep = t>=0;
u1 = unitstep.*(t+1)
plot(t,u1)
What am I doing wrong?
  2 Kommentare
Ulfah Nizam
Ulfah Nizam am 19 Dez. 2018
what does 0.01 means in
t =(-1:0.01:5)';
Adam Turton
Adam Turton am 3 Okt. 2019
Matlab has an issue with jump discontinuities, so 0.01 makes it so that it "updates" the function to the correct placement, allowing what would otherwise plot as a ramp function to show as a near vertical line.

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Chad Greene
Chad Greene am 4 Feb. 2017
Bearbeitet: Chad Greene am 4 Feb. 2017
Hi Hannah,
Your unitstep contains only zeros and ones. So when you plot
plot(t,unitstep)
it's a Heaviside function, just as you expect. But when you multiply unitstep by t, you end up plotting zeros wherever unitstep is zero, and the values of t (not ones!) wherever unitstep is one. If you're trying to move a simple Heaviside function left or right, try this:
t = (-1:0.01:5)';
% Start with all zeros:
unitstep = zeros(size(t));
% But make everything corresponding to t>=1 one:
unitstep(t>=1) = 1;
plot(t,unitstep,'b','linewidth',3)
% Repeat, with everything shifted to the right by 1 unit:
unitstep2 = zeros(size(t));
unitstep2(t>=2) = 1;
hold on
plot(t,unitstep2,'r:','linewidth',2)
box off
  5 Kommentare
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Hannah Chamberlain
Hannah Chamberlain am 6 Feb. 2017
Thanks so much for the help. I think it wasn't working earlier because the value of t was too small. The only thing I still need to do is be able to add the functions together. So I need to do Xg(t)= u(t+1)-2u(t-1)+u(t-3). Here is my attempt. I don't think this is what it's suppose to look like.
t = (-2:0.01:5)';
% Start with all zeros:
unitstep = zeros(size(t));
% But make everything corresponding to t>=1 one:
unitstep(t>=-1) = 1;
%plot(t,unitstep,'b','linewidth',3)
% Repeat, with everything shifted to the right by 1 unit:
unitstep2 = zeros(size(t));
unitstep2(t>=1) = 1;
%hold on
unitstep3 = zeros(size(t));
unitstep3(t>=3) = 1;
Ut= unitstep+unitstep2+unitstep3;
plot(t,Ut)
axis([-2 5 0 4])
Chad Greene
Chad Greene am 7 Feb. 2017
Perhaps you wanted to multiply the unitsteps together rather than add them?

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Weitere Antworten (3)

Les Beckham
Les Beckham am 6 Feb. 2017
You are very close to the first half of your goal.
Your line of code
Ut= unitstep+unitstep2+unitstep3;
should, I believe, reflect what you are calling Xg in your original problem. You might want to rename it to help you remember the connection between the code and the original equation. Also, you need to look at what the multipliers/coefficients are in your original Xg definition. u(t-1), which you are calling unitstep2 in your code, is multiplied by -2 when assembling the total Xg. This is not reflected in your code.
I think you can figure it out from here.
  2 Kommentare
Hannah Chamberlain
Hannah Chamberlain am 7 Feb. 2017
Thank you so much for you help!! It was enough that I was able to finish the rest of the assignment on my own.
Les Beckham
Les Beckham am 8 Feb. 2017
You are quite welcome.

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abdelkader omr
abdelkader omr am 17 Jul. 2024
I want to plot a unit step function
x axis represenets time and its value [0 1 2 3 4 5 6 7]
y axis represents load and its value are[2 2 3 3 3 3 2 2]
Sam Chak
Sam Chak am 17 Jul. 2024
Ran in:
Hi @abdelkader omr
Your function looks somewhat like a Boxcar function. However, your description of the continuous-time function is slightly unclear because they are discrete values. There are simpler methods for continuous-time, but since yours are discrete values, perhaps you may consider flexibly creating the function as follows:
%% Boxcar function
function y = boxcar(x, params)
for i = 1:length(x)
if x(i) <= params(1)
y(i) = 2;
elseif x(i) <= params(2)
y(i) = 2;
elseif x(i) <= params(3)
y(i) = 2;
elseif x(i) <= params(4)
y(i) = 3;
elseif x(i) <= params(5)
y(i) = 3;
elseif x(i) <= params(6)
y(i) = 3;
elseif x(i) <= params(7)
y(i) = 2;
elseif x(i) <= params(8)
y(i) = 2;
else
y(i) = 2;
end
end
end
%% Plot the function
x = linspace(0, 10, 1001);
y = boxcar(x, [0 1 2 3 4 5 6 7]);
plot(x, y, 'linewidth', 2), grid on, ylim([1 4])
xlabel('Time'), ylabel('Load'), title('Boxcar function')

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