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How to find the solutions to a set of linear equations?
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Matt J restored:
Hi All
I am currently trying to find the solutions to a set of linear equations by using Gauss elimination with partial pivoting in MATLAB
But when I run my script, I get the output of NaN. Why might this be so and how can I fix this issue?
Any form of help would be appreciated.
My code is shown below.
%Augmented matrix
Aug=[ 0 0 -2 0 0 0 0 0 0;
0 -0.8509 0 3 0 0 0 0 0;
0 0 0 0 0.8509 2 0 0 0;
1 0 0 0 -0.5253 0 0 0 0;
0 0.8509 0 0 0 0 -2 0.8509 0;
0 -0.8509 0 -4 0 0 0 0 12;
0 0 -1 0 0 3 0 -0.5253 0;
0 0 0 0 0 0 0 3 0];
[row,col]=size(Aug);%Obtain the size of A
%Conduct partial pivoting
[maxval,ind]=max(Aug((1:end),1)); %Find the max value and its index
if abs(maxval)>abs(Aug(1,1))
temp=Aug(ind,:);
Aug(ind,:)=Aug(1,:);
Aug(1,:)=temp;
end
%Find the upper triangular matrix
for p=1:row-1
for i=p+1:row
l(i,p)=Aug(i,p)/Aug(p,p);
Aug(i,:)= Aug(i,:)-Aug(p,:)* l(i,p);
end
end
%Acquire coefficient matrix and column vector
for i=1:row
for p=1:col-1
coeff(i,p)=Aug(i,p);
colvec(i)=Aug(i,col);
end
end
colvec=colvec'; %transpose
%Back substitution to obtain results
sol(row)=colvec(row)/coeff(row,row);
tot=0;
for i=row-1:-1:1
for p=i+1:row
tot=tot+coeff(i,p)*sol(p);
sol(i)=(colvec(i)-tot)/coeff(i,i)
end
tot=0;
end
2 comentarios
Rik
el 20 de Oct. de 2020
How to find the solutions to a set of linear equations?
Hi All
I am currently trying to find the solutions to a set of linear equations by using Gauss elimination with partial pivoting in MATLAB
But when I run my script, I get the output of NaN. Why might this be so and how can I fix this issue?
Any form of help would be appreciated.
My code is shown below.
%Augmented matrix
Aug=[ 0 0 -2 0 0 0 0 0 0;
0 -0.8509 0 3 0 0 0 0 0;
0 0 0 0 0.8509 2 0 0 0;
1 0 0 0 -0.5253 0 0 0 0;
0 0.8509 0 0 0 0 -2 0.8509 0;
0 -0.8509 0 -4 0 0 0 0 12;
0 0 -1 0 0 3 0 -0.5253 0;
0 0 0 0 0 0 0 3 0];
[row,col]=size(Aug);%Obtain the size of A
%Conduct partial pivoting
[maxval,ind]=max(Aug((1:end),1)); %Find the max value and its index
if abs(maxval)>abs(Aug(1,1))
temp=Aug(ind,:);
Aug(ind,:)=Aug(1,:);
Aug(1,:)=temp;
end
%Find the upper triangular matrix
for p=1:row-1
for i=p+1:row
l(i,p)=Aug(i,p)/Aug(p,p);
Aug(i,:)= Aug(i,:)-Aug(p,:)* l(i,p);
end
end
%Acquire coefficient matrix and column vector
for i=1:row
for p=1:col-1
coeff(i,p)=Aug(i,p);
colvec(i)=Aug(i,col);
end
end
colvec=colvec'; %transpose
%Back substitution to obtain results
sol(row)=colvec(row)/coeff(row,row);
tot=0;
for i=row-1:-1:1
for p=i+1:row
tot=tot+coeff(i,p)*sol(p);
sol(i)=(colvec(i)-tot)/coeff(i,i)
end
tot=0;
end
Respuestas (1)
Matt J
el 18 de Oct. de 2020
Editada: Matt J
el 18 de Oct. de 2020
You can easily trap the point where NaNs are introduced using
>>dbstop if naninf
9 comentarios
Matt J
el 19 de Oct. de 2020
I am only vaguely familiar with partial pivoting, but even if A were made upper triangular, I don't see how that would avoid the possibility that one of the elements A(p,p) would be equal to zero. What's supposed to happen if the whole matrix is zero to begin with?
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