Numerical Methods for Singular systems

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Le
Le on 21 Apr 2025
Commented: Le on 25 Apr 2025
Could you please take a look at the code I wrote for the delayed singular system class and let me know if it's correct? Thank you all in advance!
%% Phase plane
clear all
clc
%% conditions
A_x=[0.5 0.7 -0.5;0.8 1.5 0.2; 0.9 0.8 0.3];
A_d=[1.6 0.58 0.4;0.96 1.7 0.8;0.5 0.8 0.45];
B=[1.4;0.5; 0.7];
stime=0;
endtime=600;
h=0.01;
t=-stime:h:endtime;
N_0=stime/h;
N_1=endtime/h;
N=N_0+N_1;
%bound=110;
for i=1:N+1
if i<=N_0+1;
x1(:,i)=0;
x2(:,i)=0;
x3(:,i)=0;
else
d_1=floor(1.5+sin(0.5*i*h));
if i<=3
x1(:,i)=x1(:,i-1)+h*(A_x(1,1)*x1(:,i-1)+A_x(1,2)*x2(:,i-1)+A_x(1,3)*x3(:,i-1)+B(1,1)*sin(0.5*i));
x2(:,i)=x2(:,i-1)+h*(A_x(2,1)*x1(:,i-1)+A_x(2,2)*x2(:,i-1)+A_x(2,3)*x3(:,i-1)+B(2,1)*sin(0.5*i));
x3(:,i)=-inv(A_x(3,3))*(A_x(3,1)*x1(:,i)+A_x(3,2)*x2(:,i)+B(3,1)*sin(0.5*i));
else
x1(:,i)=x1(:,i-1)+h*(A_x(1,1)*x1(:,i-1)+A_x(1,2)*x2(:,i-1)+A_x(1,3)*x3(:,i-1)+A_d(1,1)*x1(:,i-d_1-1)+A_d(1,2)*x2(:,i-d_1-1)+A_d(1,3)*x3(:,i-d_1-1)+B(1,1)*sin(0.5*i));
x2(:,i)=x2(:,i-1)+h*(A_x(2,1)*x1(:,i-1)+A_x(2,2)*x2(:,i-1)+A_x(2,3)*x3(:,i-1)+A_d(2,1)*x1(:,i-d_1-1)+A_d(2,2)*x2(:,i-d_1-1)+A_d(2,3)*x3(:,i-d_1-1)+B(2,1)*sin(0.5*i));
x3(:,i)=-inv(A_x(3,3))*(A_x(3,1)*x1(:,i)+A_x(3,2)*x2(:,i)+A_d(3,1)*x1(:,i-d_1)+A_d(3,2)*x2(:,i-d_1)+A_d(3,3)*x3(:,i-d_1)+B(3,1)*sin(0.5*i));
end
end
end
%% Plotting Graphs
figure(1)
% grid on
% hold on
% box on
plot(t,x1(1,:),'b-','linewidth',1)
hold on
plot(t,x2(1,:),'r:','linewidth',2)
plot(t,x3(1,:),'r:','linewidth',2)
xlabel('Time (t)')
%ylabel('Responses x(t)')
legend('x_{1}(t)','x_{2}(t)');
% xlim([0,1000]);
% %ylim([-0.2,0.8]);
%

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Accepted Answer

Torsten
Torsten on 21 Apr 2025
Edited: Torsten on 21 Apr 2025
Ran in:
The loop index i does not equal time t. So expressions like
d_1=floor(1.5+sin(0.5*i*h));
x1(:,i-d_1-1)
x2(:,i-d_1-1)
x3(:,i-d_1-1)
sin(0.5*i)
in your code are clearly wrong.
Up to t ~ 2.43, the delay part is zero, and the results should be the same as with the code below. It can serve as validation code for your results after you've made the necessary corrections.
M = [1 0 0;0 1 0;0 0 0];
A = [0.5 0.7 -0.5;0.8 1.5 0.2; 0.9 0.8 0.3];
B = [1.4;0.5; 0.7];
tstart = 0;
tend = 2.43;
tspan = [tstart,tend];
f = @(t,y)A*y+B*sin(0.5*t);
y0 = [0;0;0];
options = odeset('Mass',M);
[T,Y] = ode15s(f,tspan,y0,options);
plot(T,Y)
grid on
  7 Comments
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Torsten
Torsten on 24 Apr 2025
You post your questions about code for delay differential equations for almost one year now, but it seems you don't make any progress (at least in the programming part). It's not possible to give solutions to obvious homework problems, but you should enhance your programming skills: try MATLAB Onramp - an introduction to MATLAB free of costs to learn the basics of the new language:
https://matlabacademy.mathworks.com/details/matlab-onramp/gettingstarted

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More Answers (1)

Walter Roberson
Walter Roberson on 21 Apr 2025
if i<=N_0+1;
x1(:,i)=0;
x2(:,i)=0;
x3(:,i)=0;
else
d_1=floor(1.5+sin(0.5*i*h));
if i<=3
This smells like you forgot the "end" for the first "if". In MATLAB, nesting is not determined by indentation.

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