A further look into combinatorial orthogonality.

Severini, Simone; Szöllősi, Ferenc

Displaying similar documents to “A further look into combinatorial orthogonality.”

Sign patterns of J-orthogonal matrices

Frank J. Hall, Zhongshan Li, Caroline T. Parnass, Miroslav Rozložník (2017)

Special Matrices

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This paper builds upon the results in the article “G-matrices, J-orthogonal matrices, and their sign patterns", Czechoslovak Math. J. 66 (2016), 653-670, by Hall and Rozloznik. A number of further general results on the sign patterns of the J-orthogonal matrices are proved. Properties of block diagonal matrices and their sign patterns are examined. It is shown that all 4 × 4 full sign patterns allow J-orthogonality. Important tools in this analysis are Theorem 2.2 on the exchange operator...

Recounting determinants for a class of Hessenberg matrices.

Benjamin, Arthur T., Shattuck, Mark A. (2007)

Integers

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Nonexistence results for Hadamard-like matrices.

Christian, Justin D., Shader, Bryan L. (2004)

The Electronic Journal of Combinatorics [electronic only]

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Counting determinants of Fibonacci-Hessenberg matrices using LU factorizations.

Li, Hsuan-Chu, Chen, Young-Ming, Tan, Eng-Tjioe (2009)

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A combinatorial interpretation of the poly-Bernoulli numbers and two Fermat analogues.

Brewbaker, Chad (2008)

Integers

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Studying the various properties of MIN and MAX matrices - elementary vs. more advanced methods

Mika Mattila, Pentti Haukkanen (2016)

Special Matrices

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Let T = {z1, z2, . . . , zn} be a finite multiset of real numbers, where z1 ≤ z2 ≤ · · · ≤ zn. The purpose of this article is to study the different properties of MIN and MAX matrices of the set T with min(zi , zj) and max(zi , zj) as their ij entries, respectively.We are going to do this by interpreting these matrices as so-called meet and join matrices and by applying some known results for meet and join matrices. Once the theorems are found with the aid of advanced methods, we also...

Combinatorial aspects of generalized complementary basic matrices

Miroslav Fiedler, Frank Hall (2013)

Open Mathematics

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This paper extends some properties of the generalized complementary basic matrices, in particular, in a combinatorial direction. These include inheritance (such as for Alternating Sign Matrices), spectral, and sign pattern matrix (including sign nonsingularity) properties.

Orthogonal diagonalization for complex skew-persymmetric anti-tridiagonal Hankel matrices

Jesús Gutiérrez-Gutiérrez, Marta Zárraga-Rodríguez (2016)

Special Matrices

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In this paper, we obtain an eigenvalue decomposition for any complex skew-persymmetric anti-tridiagonal Hankel matrix where the eigenvector matrix is orthogonal.

Factorizations for q-Pascal matrices of two variables

Thomas Ernst (2015)

Special Matrices

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In this second article on q-Pascal matrices, we show how the previous factorizations by the summation matrices and the so-called q-unit matrices extend in a natural way to produce q-analogues of Pascal matrices of two variables by Z. Zhang and M. Liu as follows [...] We also find two different matrix products for [...]

Condition numbers of Hessenberg companion matrices

Michael Cox, Kevin N. Vander Meulen, Adam Van Tuyl, Joseph Voskamp (2024)

Czechoslovak Mathematical Journal

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The Fiedler matrices are a large class of companion matrices that include the well-known Frobenius companion matrix. The Fiedler matrices are part of a larger class of companion matrices that can be characterized by a Hessenberg form. We demonstrate that the Hessenberg form of the Fiedler companion matrices provides a straight-forward way to compare the condition numbers of these matrices. We also show that there are other companion matrices which can provide a much smaller condition...

Positivity of operator-matrices of Hua-type.

Ando, Tsuyoshi (2008)

Banach Journal of Mathematical Analysis [electronic only]

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