Talk:Gram–Schmidt process
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Extension to polynomials?
editWhen working with polynomials and an arbitrary weight function, there is a recursive Gram-Schmidt orthonomalization technique. More details are provided below:
http://mathworld.wolfram.com/Gram-SchmidtOrthonormalization.html 70.162.89.24 (talk) 05:51, 30 August 2013 (UTC)
- Another example or two is needed, particularly something in a function (ie functional analysis) setting. For example, some simple polynomial examples with a suitable inner product. For example,
- , , .
- One covers examples like this in introductions to signal processing, so I imagine it's quite important in certain engineering fields. Also, this will produce orthogonal or orthonormal polynomials, making a nice connection to special functions. For example on the interval with the inner product , one recovers the Legendre polynomials.Improbable keeler (talk) 09:29, 18 January 2018 (UTC)
Determinant formula
editI have two complaints about this section!
First of all, the section defines some vectors ei and then never mentions them again. Frankly, I have no idea what's going on there.
Secondly, the section contains the text: "Note that the expression for uk is a "formal" determinant, i.e. the matrix contains both scalars and vectors; the meaning of this expression is defined to be the result of a cofactor expansion along the row of vectors."
I highly doubt that this explanation will be the least bit enlightening to anyone who didn't already know what was going on, and I also doubt that the link would be very enlightening with a bit of additional context. (For instance, the text should indicate which row the Laplace expansion is being taken over - the last one - and then indicate the formula as a linear combination of the v's with coefficients combing from the corresponding minor determinants.) 2602:30A:C04C:5F30:805:108B:A61A:2175 (talk) 23:37, 3 August 2014 (UTC)
Francesco Caravelli: I have been trying very hard to find the determinant formula in the literature. There is no reference in the wiki page. Very frustrating! Update: I have found a similar formula in Gantmacher: Theory of matrices (1959) Volume 1, Pages 256-258.
— Preceding unsigned comment added by 204.121.137.208 (talk) 17:28, 16 March 2017 (UTC)
Untitled
editThe Matlab implementation for the Gram-Schmidt process is for a specific norm and inner product definition (here being the Standard Euclidean Inner Product and by it's extension the 2-norm). Should be updated to reflect that. — Preceding unsigned comment added by BlackMetalStats (talk • contribs) 00:19, 3 April 2017 (UTC)
Historical origins
editThe article originally said that the method had appeared in the work by both Laplace and Cauchy, citing the Cheney and Kincaid book. [1] But the book only mentions that Laplace was "familiar" with the method. I couldn't see a reference to Cauchy on Google Books, but I don't have a copy of the book. Arguably a better historical reference is needed.Improbable keeler (talk) 06:57, 18 January 2018 (UTC)
References
- ^ Cheney, Ward; Kincaid, David (2009). Linear Algebra: Theory and Applications. Sudbury, Ma: Jones and Bartlett. pp. 544, 558. ISBN 978-0-7637-5020-6.
The definition of projection is INCORRECT+Proof
editIf we consider , I proof the set you get isn't orthogonal to ech other. Let's proof:
For the field we consider Complex Numbers. If then we begin by compute .
Now see what happen when :
Now the is number in field so we can get it out of bracket as define [1].
and that ISN'T Zero in Complex Vector Space; But if you write the correct form which is every think make sense.
Firouzyan (talk) 21:35, 15 May 2019 (UTC)
I believe in the above there's a missing complex conjugation.
I've edited accordingly (changing it back to the pre-2019 state, I think).
Scott Lawrence (talk) 03:37, 5 September 2024 (UTC)
Apologies; I've just realized that I've run into this difference of convention between physics and the rest of the world. Changing the page back, but I'll add a short note somewhere to save other poor souls the effort.
Scott Lawrence (talk) 03:52, 5 September 2024 (UTC)
References
- ^ "Inner product space", Wikipedia, 2019-04-30, retrieved 2019-05-15