Combinatorial relaxation algorithm for the maximum degree of subdeterminants: Computing Smith-McMillan form at infinity and structural indices in Kronecker form (Q1894574)
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scientific article; zbMATH DE number 780888
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Combinatorial relaxation algorithm for the maximum degree of subdeterminants: Computing Smith-McMillan form at infinity and structural indices in Kronecker form |
scientific article; zbMATH DE number 780888 |
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Combinatorial relaxation algorithm for the maximum degree of subdeterminants: Computing Smith-McMillan form at infinity and structural indices in Kronecker form (English)
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3 August 1995
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A combinatorial relaxation algorithm is proposed to compute the highest degree of a minor, of a specified order \(k\), of a matrix whose entries are polynomials, or rational functions, of a single variable. It uses an algorithm which finds a maximum weight matching of size \(k\) in a bipartite graph. The resulting ``generic'' answer is then modified if ``accidental numerical cancellations occur''.
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subdeterminants
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Smith-McMillan form
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structural indices
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Kronecker form
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combinatorial relaxation algorithm
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minor
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matrix
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maximum weight matching
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bipartite graph
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