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A max version of the Perron-Frobenius theorem

โœ Scribed by R.B. Bapat

Publisher
Elsevier Science
Year
1998
Tongue
English
Weight
916 KB
Volume
275-276
Category
Article
ISSN
0024-3795

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โœฆ Synopsis

If A is an n x n nonnegative, irreducible matrix, then there exists /L(A) > 0. and a positive vector x such that max,a,,x, = &4)x,. i = 1,2.

n. Furthermore, ,n(A) is the maximum geometric mean of a circuit in the weighted directed graph corresponding to A. This theorem, which we refer to as the max version of the Perron-Frobenius Theorem, is well-known in the context of matrices over the max algebra and also in the context of matrix scalings. In the present work, which is partly expository, we bring out the intimate connection between this result and the PerronFrobenius theory. We present several proofs of the result. some of which use the Perron-Frobenius Theorem. Structure of max eigenvalues and max eigenvectors is described. Possible ways to unify the Perron-Frobenius Theorem and its max version are indicated. Some inequalities for /c(A) are proved.

๐Ÿ“œ SIMILAR VOLUMES

Perronโ€“Frobenius type results and discre
Perronโ€“Frobenius type results and discrete versions of nodal domain theorems
โœ Art M. Duval; Victor Reiner ๐Ÿ“‚ Article ๐Ÿ“… 1999 ๐Ÿ› Elsevier Science ๐ŸŒ English โš– 98 KB

We prove discrete versions of nodal domain theorems; in particular, an eigenvector corresponding to the sth smallest eigenvalue of a graph Laplacian has at most s nodal domains. We compare our results to those of Courant and Pleijel on nodal domains of continuous Laplacians, and to those of Fiedler