Basic matrix equation Ax=B with restrictions

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LQQD jimenez
LQQD jimenez on 8 Oct 2011
Hi! Im modeling a truss using FEM and im trying to solve a very basic equation A*x=b where a is the stiffness matrix , x and b are the displacements and forces vectors. So A and b are known and i want to find x, the displacements. I know i could type x=b/A in matlab, the thing is i know some of the entries of the x vector due to boundary conditions, and typing a=b/A it works as if all x entries where unknowns. Is there a function to do this in MATLAB ?
Thanks a lot!!
Pd: Sorry for my poor english!

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Accepted Answer

Greg Heath
Greg Heath on 9 Oct 2011
x = [ x1 ; x2 ]% x2 known
A = [ A1 A2 ]% A1 & A2 known
A*x = A1*x1 + A2*x2 % last term known
A1*x1 = b - A2*x2
Voila!
Hope this helps.
Greg
P.S. Ain't Linear Systems grand?

More Answers (2)

bym
bym on 9 Oct 2011
you need to reduce the size of your stiffness and force matrix to eliminate those entries where you know the value of x. I call these Ared and bred. Then perform
xred = Ared\bred
then substitute the known values of x into xred and multiply by the stiffness matrix to get the full force matrix.
It is difficult to explain in words, if you can post your A b x then an example would be better
Dr. Seis
Dr. Seis on 9 Oct 2011
If "x" and "b" are column vectors, then your system of equations is like:
A(1,1) * x(1,1) + A(1,2) * x(2,1) + ... + A(1,N) * x(N,1) = b(1,1)
A(2,1) * x(1,1) + A(2,2) * x(2,1) + ... + A(2,N) * x(N,1) = b(2,1)
...
A(M,1) * x(1,1) + A(M,2) * x(2,1) + ... + A(M,N) * x(N,1) = b(M,1)
If you already know some values of x, then move them to the right-hand side of your system of linear equations. For example, if you know the value of x(2,1) then your system of linear equations would be:
A(1,1) * x(1,1) + A(1,3) * x(3,1) + ... + A(1,N) * x(N,1) = b(1,1) - A(1,2) * x(2,1)
A(2,1) * x(1,1) + A(2,3) * x(3,1) + ... + A(2,N) * x(N,1) = b(2,1) - A(2,2) * x(2,1)
...
A(M,1) * x(1,1) + A(M,3) * x(3,1) + ... + A(M,N) * x(N,1) = b(M,1) - A(M,2) * x(2,1)
In this example (and if x(2,1) = 5), you would then redefine you matrices as follows:
b = b - A(:,2)*5;
A = A(:,1:N~=2);
You will find your new "x" as follows:
x = A\b;
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Dr. Seis
Dr. Seis on 9 Oct 2011
The results *should* be identical in theory. However, in practice, using the x=A\b will offer more accuracy (as documented in the Help Navigation under "inv").
Dr. Seis
Dr. Seis on 9 Oct 2011
Updated x = A\b;
from x = inv(transpose(A)*A)*transpose(A)*b;

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