Talk:Quadratic form (statistics)
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![\operatorname{cov}\left[\epsilon'\Lambda_1\epsilon,\epsilon'\Lambda_2\epsilon\right]=2\operatorname{tr}\left[\Lambda _1\Sigma\Lambda_2 \Sigma\right] + 4\mu'\Lambda_1\Sigma\Lambda_2\mu](../../../math/3/d/a/3da5d699bd6c6dc5703454971e2143d0.png)
If Λ1' = Λ2 and they are not symmetric, the above formula contradicts the variance formula, since in that case ε'Λ1ε = ε'Λ2ε. How to resolve this? Btyner 04:48, 3 April 2006 (UTC)
- Yikes, the expression was wrong in the case of nonsymmetric Λs. I have noted the symmetric requirement, and added a section showing how to derive the general expression. Btyner 18:24, 6 April 2006 (UTC)
[edit] Is symmetry really necessary for the expectation result?
Nothing in the usual proof of the result for expectation seems to require symmetry of Λ:
-
= ![\operatorname{E}[ \operatorname{tr} ( \epsilon' \Lambda \epsilon) ]](../../../math/7/6/b/76bb5c5bf1a6ecf3e9da4a129ed7f396.png)
= ![\operatorname{E}[ \operatorname{tr} ( \Lambda \epsilon \epsilon') ]](../../../math/f/9/a/f9abeddb313507b4301ab60b0467d49f.png)
= ![\operatorname{tr}( \Lambda \operatorname{E}[ \epsilon \epsilon' ])](../../../math/3/4/c/34c600ea858c3ff48f3cc5730b016637.png)
= ![\operatorname{tr}( \Lambda [ \mu \mu ' + \Sigma ])](../../../math/6/c/9/6c9ef54338a0c49329b1ba41bb5402b0.png)
= 
Geomon 23:30, 21 December 2006 (UTC)
- Good call. I must have been thinking about bilinear forms when I wrote that. Btyner 00:16, 23 January 2007 (UTC)
