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Subject Item
dbr:Partial_inverse_of_a_matrix
rdfs:label
Partial inverse of a matrix
rdfs:comment
In linear algebra and statistics, the partial inverse of a matrix is an operation related to Gaussian elimination which has applications in numerical analysis and statistics. It is also known by various authors as the principal pivot transform, or as the sweep, gyration, or exchange operator. Given an matrix over a vector space partitioned into blocks: If is invertible, then the partial inverse of around the pivot block is created by inverting , putting the Schur complement in place of , and adjusting the off-diagonal elements accordingly:
dct:subject
dbc:Matrix_theory
dbo:wikiPageID
58726047
dbo:wikiPageRevisionID
1122385946
dbo:wikiPageWikiLink
dbr:Gaussian_elimination dbr:Matrix_(mathematics) dbr:Schur_complement dbc:Matrix_theory dbr:Statistics dbr:Graph_of_a_function dbr:Linear_algebra
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n12:9Hieu wikidata:Q60791007
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dbo:abstract
In linear algebra and statistics, the partial inverse of a matrix is an operation related to Gaussian elimination which has applications in numerical analysis and statistics. It is also known by various authors as the principal pivot transform, or as the sweep, gyration, or exchange operator. Given an matrix over a vector space partitioned into blocks: If is invertible, then the partial inverse of around the pivot block is created by inverting , putting the Schur complement in place of , and adjusting the off-diagonal elements accordingly: Conceptually, partial inversion corresponds to a rotation of the graph of the matrix , such that, for conformally-partitioned column matrices and : As defined this way, this operator is its own inverse: , and if the pivot block is chosen to be the entire matrix, then the transform simply gives the matrix inverse . Note that some authors define a related operation (under one of the other names) which is not an inverse per se; particularly, one common definition instead has . The transform is often presented as a pivot around a single non-zero element , in which case one has Partial inverses obey a number of nice properties: * inversions around different blocks commute, so larger pivots may be built up from sequences of smaller ones * partial inversion preserves the space of symmetric matrices Use of the partial inverse in numerical analysis is due to the fact that there is some flexibility in the choices of pivots, allowing for non-invertible elements to be avoided, and because the operation of rotation (of the graph of the pivoted matrix) has better numerical stability than the shearing operation which is implicitly performed by Gaussian elimination. Use in statistics is due to the fact that the resulting matrix nicely decomposes into blocks which have useful meanings in the context of linear regression.
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wikipedia-en:Partial_inverse_of_a_matrix?oldid=1122385946&ns=0
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3817
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wikipedia-en:Partial_inverse_of_a_matrix
Subject Item
dbr:Invertible_matrix
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dbr:Partial_inverse_of_a_matrix
Subject Item
wikipedia-en:Partial_inverse_of_a_matrix
foaf:primaryTopic
dbr:Partial_inverse_of_a_matrix