- sys - defines your state space
- u defines your input signal which in case of step input can be defined as u=ones(length(t)) % cause we know for step u(t)=1 (you can see it from laplace transform tables)
- t - time, for example; t=linspace(0,5,10)
- x0 = is a vector of initial conditions
State Space unit step and initial conditions
94 views (last 30 days)
Show older comments
I am trying to get MATLAB to show a state space response with both a unit step input and initial conditions. All documentation shows only how to do one or the other, as if I try using step() or initial(), the second overrides the first. Thanks!
0 Comments
Answers (3)
Daniel Stankowski
on 7 Jan 2020
The above method works but you can also use an lsim command.
Do the following:
lsim(sys,u,t,x0)
where;
2 Comments
shivam sahil
on 11 Apr 2020
A small correction, it should be:
u=ones(length(t),1) ;
instead of
u=ones(length(t))
Youngsik Kim
on 3 Nov 2017
You can get the zero input response from initial() and zero state response from step() separately, and then you can add up later to plot the response.
[yi,ti,xi]=initial(systm,xinitial); [ystep,ts,xs]=step(systm,ti);
Then, the superposition of them is what you want. ytotal=yi+ystep; Then plot time .vs. ytotal.
0 Comments
Drishya Dinesh
on 19 Apr 2021
how to get a response with initial value of 10.
t2=400;
u_del=(0.0022*k*(s+0.06931)*(s^2+0.4852*s+0.1492))/((s+0.04833)*(s+0.004352)*(s^2+0.06012*s+0.01331));
figure
step(u_del,t2);
ylabel('Velocity,u (m/s)','fontsize',10);
title('Time Response');
grid
0 Comments
See Also
Categories
Find more on Dynamic System Models in Help Center and File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!