Frobenius and Sylvester Inequalities for the Chainable Rank

A. E. Guterman; E. R. Shafeev

doi:10.1007/s10958-025-07710-7

Frobenius and Sylvester Inequalities for the Chainable Rank

A. E. Guterman, E. R. Shafeev

Department of Mathematics

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

This paper shows that any nonnegative n × m matrix free of zero rows and columns determines a map of the partition lattice of the set of cardinality n into the partition lattice of the set of cardinality m. These maps have certain properties similar to those of linear maps on vector spaces. In particular, for such maps the rank function is correctly defined and possesses a number of properties of the ordinary rank, including an upper bound for the rank of a matrix product. However, so far no lower bound has been established. In this paper, the counterpart of the Frobenius inequality for the above rank function is proved and, as a corollary, the Sylvester bound, providing a lower bound for the rank of a matrix product, is obtained.

Original language	English
Pages (from-to)	442-456
Number of pages	15
Journal	Journal of Mathematical Sciences
Volume	288
Issue number	4
DOIs	https://doi.org/10.1007/s10958-025-07710-7
State	Published - Mar 2025

All Science Journal Classification (ASJC) codes

Statistics and Probability
General Mathematics
Applied Mathematics

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abstract = "This paper shows that any nonnegative n × m matrix free of zero rows and columns determines a map of the partition lattice of the set of cardinality n into the partition lattice of the set of cardinality m. These maps have certain properties similar to those of linear maps on vector spaces. In particular, for such maps the rank function is correctly defined and possesses a number of properties of the ordinary rank, including an upper bound for the rank of a matrix product. However, so far no lower bound has been established. In this paper, the counterpart of the Frobenius inequality for the above rank function is proved and, as a corollary, the Sylvester bound, providing a lower bound for the rank of a matrix product, is obtained.",

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N2 - This paper shows that any nonnegative n × m matrix free of zero rows and columns determines a map of the partition lattice of the set of cardinality n into the partition lattice of the set of cardinality m. These maps have certain properties similar to those of linear maps on vector spaces. In particular, for such maps the rank function is correctly defined and possesses a number of properties of the ordinary rank, including an upper bound for the rank of a matrix product. However, so far no lower bound has been established. In this paper, the counterpart of the Frobenius inequality for the above rank function is proved and, as a corollary, the Sylvester bound, providing a lower bound for the rank of a matrix product, is obtained.

AB - This paper shows that any nonnegative n × m matrix free of zero rows and columns determines a map of the partition lattice of the set of cardinality n into the partition lattice of the set of cardinality m. These maps have certain properties similar to those of linear maps on vector spaces. In particular, for such maps the rank function is correctly defined and possesses a number of properties of the ordinary rank, including an upper bound for the rank of a matrix product. However, so far no lower bound has been established. In this paper, the counterpart of the Frobenius inequality for the above rank function is proved and, as a corollary, the Sylvester bound, providing a lower bound for the rank of a matrix product, is obtained.

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EP - 456

JO - Journal of Mathematical Sciences

JF - Journal of Mathematical Sciences

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ER -

Frobenius and Sylvester Inequalities for the Chainable Rank

Abstract

All Science Journal Classification (ASJC) codes

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