Finding a variable value using no fzero etc.

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alexaa1989
alexaa1989 le 12 Août 2014
Commenté : alexaa1989 le 14 Août 2014
Hi I have another problem that I cannot using fzero or solve or any method that uses initial answers because It can produce the exact answer
Y(t,j)=[0,0,1,0;1,0,0,0;0,0,0,1;0,1,0,0];
A(i,j)=[1,4,6,2;4,5,2,3;5,3,2,4];
now I have K(i,j) which needs to be calculated as follow
sigma(Y(1,j)*(K(1,j)-A(1,j)))=0
this part is simple I could easily calculate K(1,j) after having K(1,j) I need to use it in the following equation to calculate K(t,j)
sigma( sigma(Y(t,j)*(K(1,j)-(sigma(Y(t-1,f)*K(1,f)+A(1,j)))))=0
I calculated the answer K(1,3) = 6 from equation 1
from equation 2 we have K(1,1)=7, K(1,4)=9, K(1,2)=13
it can be easily calculated because it is gradually like this Y(K-A)=0 and we have y that is one and A
The problem is : how can I code the second equation that I would be able to calculate K(t,j) and use it in another equation? no fzero, solve etc. can anyone help?
  1 commentaire
Matt J
Matt J le 12 Août 2014
because It can produce the exact answer
Do you mean "can", or did you really mean "can't"? No solver will produce an exact answer. You always have inexact calculations in finite precision computers.

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Réponses (1)

Matt J
Matt J le 12 Août 2014
Your equations are linear, so you just have to build an appropriate matrix equation
P*X=Q
and solve as X=P\Q
  5 commentaires
Matt J
Matt J le 13 Août 2014
There shouldn't be a fundamental difference. Both summations are equivalent to weighted sums of the K(i) with different sets of coefficients. Just put the coefficients into the rows of a matrix, one row per equation.
alexaa1989
alexaa1989 le 14 Août 2014
the second summation have another K(1,f) in it
that makes everything different I have been trying to code it for a week now

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