Effacer les filtres
Effacer les filtres

Linear Algebra Error: Matrix is close to singular or badly scaled.

2 vues (au cours des 30 derniers jours)
Shrishti Yadav
Shrishti Yadav le 2 Sep 2023
Réponse apportée : Star Strider le 2 Sep 2023
Hi,
I have a simple localization code that calculates the x,y,z coordinates for a wave heard at 4 receivers. The equations are set up using matrices but it is giving me an error I don't understand. I checked if the matrix reaches singularity and it does not. So I am not sure what the error is pointing to. I am attaching the code here:
% Sensor/receiver locations/ vertices of a tetrahedron
% si(xi,yi,zi)
r1 = [0.125 0.125 0.125];
r2 = [0.25 0.125 0.125];
r3 = [0.1875 0.25 0.125];
r4 = [0.1875 0.1875 0.25];
% Calculate the Time of Arrival at the receivers
c = 343; % m/s
t = zeros(1, 4);
sound_loc = [10 20 10]; % Replace x, y, and z with your sound location coordinates
vertices = [r1; r2; r3; r4]; % Replace vertex1 to vertex4 with your 3D vertices
for j = 1:4
t(j) = pdist([sound_loc; vertices(j, :)], 'euclidean') / c;
end
% Setting up matrices to solve for location of source
A = [2*r1(1) 2*r1(2) 2*r1(3) 2*c*t(1) -1; 2*r2(1) 2*r2(2) 2*r2(3) 2*c*t(2) -1; 2*r3(1) 2*r3(2) 2*r3(3) 2*c*t(3) -1; 2*r4(1) 2*r4(2) 2*r4(3) 2*c*t(4) -1 ];
%u = [x y z -c*t r^2-c^2*t^2];
r1_sq = sqrt(r1(1)^2 + r1(2)^2 + r1(3)^2);
r2_sq = sqrt(r2(1)^2 + r2(2)^2 + r2(3)^2);
r3_sq = sqrt(r3(1)^2 + r3(2)^2 + r3(3)^2);
r4_sq = sqrt(r4(1)^2 + r4(2)^2 + r4(3)^2);
b = [r1_sq-c^2*t(1)^2; r2_sq-c^2*t(2)^2; r3_sq-c^2*t(3)^2; r4_sq-c^2*t(4)^2 ];
% Calculating u : u = [x y z -c*t r^2-c^2*t^2];
% u = (A^T*A)^-1*A^T*b
t = 0;
u1 = (transpose(A)*b);
u2 = (transpose(A)*A);
u = inv(u2) * u1;
  3 commentaires
Afficher 1 commentaire plus ancien
Bruno Luong
Bruno Luong le 2 Sep 2023
Modifié(e) : Bruno Luong le 2 Sep 2023
@Star Strider "u2 = A\A"
where it comes from??? what you want to show here?
Shrishti Yadav
Shrishti Yadav le 2 Sep 2023
Modifié(e) : Shrishti Yadav le 2 Sep 2023
The original equation was: Au = b with A as an mxn matrix and u is nx1 and b is nx1
so taking the transpose on both sides and then get only u on the left hand side, we get the following after multiplying both sides by the inverse of the transpose of A * A:
u = inv(A^TA)*A^T*b
So it should be ok in terms of singularity. The goal was to calculate u correctly. that was it. i didn't know if the way i am multiplying it out makes an error.

Connectez-vous pour commenter.

Connectez-vous pour répondre à cette question.

Réponse acceptée

Star Strider
Star Strider le 2 Sep 2023
I am not certain what you want to do.
Consider using the pinv function.

Plus de réponses (1)

Bruno Luong
Bruno Luong le 2 Sep 2023
Modifié(e) : Bruno Luong le 2 Sep 2023
@Shrishti Yadav "I checked if the matrix reaches singularity and it does not. "
Your A matrix has size 4 x 5, the the rank is maximum 4.
The matrix u2 = A'*A is 5 x 5 with maximum rank <= 4 so it must be singular, despite what you claim.
In short you try to solve for 5 unknown with 4 equations. The system is then underdetermined and MATLAB warns you that.

Catégories

En savoir plus sur Linear Algebra dans Help Center et File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by