Warning: Matrix is close to singular or badly scaled. Results may be inaccurate. RCOND = 2.202823e-18.
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hi guys I need a help I'm using LDA but when I run I got the message aforementioned
S1=cov(d1');
S2=cov(d2');
S3=cov(d3');
%% within-class scatter matrix
Sw=S1+S2+S3;
%% between -class scatter matrix
SB1=n1.* (mu1-mu)*(mu1-mu)';
SB2=n2.* (mu2-mu)*(mu2-mu)';
SB3=n3.* (mu3-mu)*(mu3-mu)';
SB=SB1+SB2+SB3;
%% Computing the LDA projection
W=inv(Sw)*SB;
%% getting the projection vectors
[V,D]=eig(W);
0 Comments
Accepted Answer
Jan
on 13 Nov 2018
The error message is clear. I guess it occurs for this line:
W=inv(Sw)*SB;
This means, that Sw is ill-conditioned, such that there is no inverse of it. This is equivalent to dividing by zero. There is no "help" for this case, but the inputs do not allow this operation.
By the way, use
W=Sw \ SB
instead of the explicit inversion for numerical reasons. See doc inv .
3 Comments
Bruno Luong
on 13 Nov 2018
Edited: Bruno Luong
on 13 Nov 2018
Sw\SB
is based on QR with column permutation, so if you system is ill-conditions, it let some of the components of the unknown W to be 0.
pinv(Sw)*SB
is based on SVD, so it forces the projection of the unknown W to the span of the degenerated singular vectors to be 0.
Generally SVD solution is "better", in the sense that is the smallest vector (in l2 norm) that meets the solution (or minimizes the residual l2 norm), therefore more stable with respect to noise.
More Answers (3)
Tony Castillo
on 16 Jan 2020
Hello Guys,
I received this warning in a model made in Simescape Power Systems of Simulink,
Warning: Matrix is close to singular or badly scaled. Results may be inaccurate. RCOND = 2.051867e-16.
Warning: Matrix is close to singular or badly scaled. Results may be inaccurate. RCOND = 2.051867e-16.
May you help me to solve it ?
Thanks in advance.
2 Comments
Marcel Johannesmann
on 25 Jul 2020
Edited: Marcel Johannesmann
on 26 Jul 2020
I have encountered a similar warning. I could narrow it down to the Load flow settings of the power gui block. The warning most likely occurs because your Base Power is too high so that your rated values (in pu) in the admittance matrix are getting too small. Adjusting the base power fixed this issue for me. Hope this helps.
Mojtaba Raheli
on 27 Sep 2020
Edited: Mojtaba Raheli
on 27 Sep 2020
How did you do it? I cannot adjust base power. please write the direction of base power setting.
Shaunak Bagade
on 19 Oct 2021
clc;
clear;
close all;
A = [2 1 -5; 0 1 -2; 0 0 2];
[P, D] = eig(A);
disp('P Matrix');
disp(P);
disp('Diagonal form of A is');
disp(P\D*P);
9 Comments
John D'Errico
on 22 Oct 2021
Edited: John D'Errico
on 22 Oct 2021
@Shaunak Bagade - what did you not get? I will not answer your question, not UNTIL you bother to post this as a question. Nor should anyone else. So while your question is of technical interest, posting it as an answer to a different question is a problem, because that means nobody else will ever be able to find your question, and nobody else will be able to learn from the answer. Effectively, if you are interested in learning the answer to this problem, then you should be interested enough to learn to use the site properly.
Note that as quasi-moderators, we should have the capability to move this into a question by the OP. But that is beyond our abilities.
John D'Errico
on 22 Oct 2021
@Shaunak Bagade - Since you seem not to want to follow my guidance, see my question, AND answer, here:
From now on, please learn to post a question as a question, rather than hijacking a separate only vaguely related question.
Tugcan
on 5 Jan 2024
Hello guys i had a same error with different matlabs code. I tried this \ method but still i have this error. I get this error at values 80 120 and 320 for N. Best Regards.
Enter T:
1
Enter N:
80
Warning: Matrix is close to singular or badly scaled. Results may be inaccurate. RCOND = 5.765040e-19. > In question4s (line 18)
error =
1.8689e+13
function mixedboundary()
T=input("Enter T: ");
N=input("Enter N: ");
h=T/N;
A=zeros(N+1,N+1);
F=zeros(N+1,1);
A(1,1)=1;
A(N+1,1:3)=[-3, 4, -1];
F(1,1)=1;
F(N+1,1)=6*h;
for i=2:N
t(i)=(i-1)*h;
A(i,i-1)=1/(h^2)-5/(h);
A(i,i)=-2/(h^2)-3/(2*h);
A(i,i+1)=1/(h^2)-5/(h);
F(i,1)=14*exp(2*t(i))-3*exp(4*t(i));
end
Y=inv(A)*F;
exact=zeros(N+1,1);
for i=1:N+1
t(i)=(i-1)*h;
exact(i,1)=exp(2*t(i));
end
error=max(abs(exact-Y))
end
4 Comments
Torsten
on 5 Jan 2024
Edited: Torsten
on 5 Jan 2024
The code has nothing to do with your assignment.
The method used in the code is suited for boundary value problems - thus problems where conditions on the solution are imposed at both ends of the interval of integration (in your case: t = 0 and t = T). In the assignment, both conditions are imposed at t = 0.
Further, you are told to first reduce the 2nd order differential equation to a system of two first order differential equations and then solve the system by a Runge-Kutta-method. Both does not happen in the code.
Tugcan
on 6 Jan 2024
I see. I have reduced formst but i dont know how to evolve it to Runge-Kutta-Method but thank you for attention
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