Multiplying by inverse of a matrix
33 views (last 30 days)
Show older comments
Hello,
I want to calculate where α is a scalar (it's for calculating the estimated variance of a parameter). Using
alpha*inv(X'X)
gives the correct results but (a) Matlab suggest not doing so (although the backward slash gives the wrong results) and (b) I've always avoided multiplying by the inverse of a matrix due to potential inaccuracy.
Is there a better way?
Thank you
2 Comments
Accepted Answer
James Tursa
on 27 Nov 2020
Edited: James Tursa
on 27 Nov 2020
You are essentially "dividing" by the X'*X quantity, so that is what needs to appear on the "bottom" of the slash. E.g.,
>> alpha = 0.5;
>> X = [0.6 0.9; 0.9 0.5];
>> alpha*inv(X'*X)
ans =
2.0377 -1.9031
-1.9031 2.2491
>> (X'*X)\eye(2)*alpha
ans =
2.0377 -1.9031
-1.9031 2.2491
>> alpha*eye(2)/(X'*X)
ans =
2.0377 -1.9031
-1.9031 2.2491
Or you can think of it this way. Start with this definition:
inv(X'*X) * (X'*X) = eye(2)
and solve for the inverse:
inv(X'*X) = eye(2)/(X'*X)
Similarly, starting with this definition:
(X'*X) * inv(X'*X) = eye(2)
yields
inv(X'*X) = (X'*X)\eye(2)
Then just multiply by alpha.
More Answers (0)
See Also
Categories
Find more on Function Creation in Help Center and File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!