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I should solve 2 coupled matrix differential equations. for that, I have created a script (m-file) in which I have defined all matrices with constant values. I have also created another script for a function and call this function in the first m-file. Finally I have used ode45 to solve the function, but it doesn't work!
The systom to be solved (A, L, R and P are matrices with constant components):
My function (which its name is 'myode'):
function dydt=myode(t,y,A,R,L,P)
[m n]=size(P);
[k l]=size(L);
for a=1:m
dydt(a)=P(a,:)*y(a);
end
for b=1:k
dydt(m+b)=inv(L)*(A*y(m+b)-R*y(b));
end
end
My first script (m-file):
tspan=linspace(5,5.010,11);
i_0=transpose([0.355 -0.355 2.046 0.711 0 0.709]);
u_0=transpose([1002.40 1001.98 1012.04 986.11]);
y0=[u_0;i_0];
[T Y]=ode45(@(t,y) myode(t,y,A,R,L,P),tspan,y0)
==> but when I run my first script, the following error pops up:
Error in Test>@(t,y)myode(t,y,A,R,L,P)
Error in odearguments (line 87)
f0 = feval(ode,t0,y0,args{:}); % ODE15I sets args{1} to yp0.
Error in ode23 (line 114)
odearguments(FcnHandlesUsed, solver_name, ode, tspan, y0, options, varargin);
Error in Test (line 58)
[T Y]=ode23(@(t,y) myode(t,y,A,R,L,P),tspan,y0)
Anyone has an idea what the problem is?

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Saeed Ahmadzadeh Mahboobi
Saeed Ahmadzadeh Mahboobi 2019년 11월 6일
And when I run the function alone, the error is:
Not enough input arguments.
Error in myode2 (line 2)
[m n]=size(P);
darova
darova 2019년 11월 6일
u and i have different sizes
1.png
You also passing different sizes
i_0=transpose([0.355 -0.355 2.046 0.711 0 0.709]);
u_0=transpose([1002.40 1001.98 1012.04 986.11]);
How to substract ?
I like the way you organized the question
Saeed Ahmadzadeh Mahboobi
Saeed Ahmadzadeh Mahboobi 2019년 11월 6일
About the matrix dimensions, when they are multiplied with another marix from left side, the both A*u and R*i become matrices of the same dimensions.
darova
darova 2019년 11월 6일
Can you show A and R matrices?
Walter Roberson
Walter Roberson 2019년 11월 6일
We will need more of your code to test with.
Richard Brown
Richard Brown 2019년 11월 7일
You're definitely going to have issues trying to build your derivative one term at a time (look at the term involvint inv(L) for a start). why can't you just do the following?
function dydt=myode(t,y,A,R,L,P)
u = y(1:3);
i = y(4:7);
dydt = [L\(A*u - R*i); P*i];
end
will be much easier to troubleshoot.

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질문:

Saeed Ahmadzadeh Mahboobi
Saeed Ahmadzadeh Mahboobi
2019년 11월 6일

댓글:

Richard Brown
Richard Brown
2019년 11월 7일

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