Generalizations of bounds on the index of convergence to weighted digraphs

Glenn Merlet; Thomas Nowak; Hans Schneider; Sergey Sergeev

doi:10.1016/j.dam.2014.06.026

Generalizations of bounds on the index of convergence to weighted digraphs

Glenn Merlet, Thomas Nowak, Hans Schneider, Sergey Sergeev

Mathematics

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Abstract

We study sequences of optimal walks of a growing length in weighted digraphs, or equivalently, sequences of entries of max-algebraic matrix powers with growing exponents. It is known that these sequences are eventually periodic when the digraphs are strongly connected. The transient of such periodicity depends, in general, both on the size of digraph and on the magnitude of the weights. In this paper, we show that some bounds on the indices of periodicity of (unweighted) digraphs, such as the bounds of Wielandt, Dulmage–Mendelsohn, Schwarz, Kim and Gregory–Kirkland–Pullman, apply to the weights of optimal walks when one of their ends is a critical node.

Original language	English
Pages (from-to)	121-134
Journal	Discrete Applied Mathematics
Volume	178
Early online date	24 Jul 2014
DOIs	https://doi.org/10.1016/j.dam.2014.06.026
Publication status	Published - 11 Dec 2014

Keywords

Optimal walks
Max algebra
Nonnegative matrices
Matrix powers
Index of convergence
Transient
Weighted digraphs

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10.1016/j.dam.2014.06.026

Sergeev_Generalizations_of_bounds_Discrete_Applied_Mathematics_2014
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http://linkinghub.elsevier.com/retrieve/pii/S0166218X14003011

Perron-Frobenius Theory and Max-Algebraic Combinatorics of Nonnegative Matrices
Butkovic, P.
Engineering & Physical Science Research Council
12/03/12 → 11/03/14
Project: Research Councils

Cite this

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title = "Generalizations of bounds on the index of convergence to weighted digraphs",

abstract = "We study sequences of optimal walks of a growing length in weighted digraphs, or equivalently, sequences of entries of max-algebraic matrix powers with growing exponents. It is known that these sequences are eventually periodic when the digraphs are strongly connected. The transient of such periodicity depends, in general, both on the size of digraph and on the magnitude of the weights. In this paper, we show that some bounds on the indices of periodicity of (unweighted) digraphs, such as the bounds of Wielandt, Dulmage–Mendelsohn, Schwarz, Kim and Gregory–Kirkland–Pullman, apply to the weights of optimal walks when one of their ends is a critical node.",

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author = "Glenn Merlet and Thomas Nowak and Hans Schneider and Sergey Sergeev",

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language = "English",

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pages = "121--134",

journal = "Discrete Applied Mathematics",

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T1 - Generalizations of bounds on the index of convergence to weighted digraphs

AU - Merlet, Glenn

AU - Nowak, Thomas

AU - Schneider, Hans

AU - Sergeev, Sergey

PY - 2014/12/11

Y1 - 2014/12/11

N2 - We study sequences of optimal walks of a growing length in weighted digraphs, or equivalently, sequences of entries of max-algebraic matrix powers with growing exponents. It is known that these sequences are eventually periodic when the digraphs are strongly connected. The transient of such periodicity depends, in general, both on the size of digraph and on the magnitude of the weights. In this paper, we show that some bounds on the indices of periodicity of (unweighted) digraphs, such as the bounds of Wielandt, Dulmage–Mendelsohn, Schwarz, Kim and Gregory–Kirkland–Pullman, apply to the weights of optimal walks when one of their ends is a critical node.

AB - We study sequences of optimal walks of a growing length in weighted digraphs, or equivalently, sequences of entries of max-algebraic matrix powers with growing exponents. It is known that these sequences are eventually periodic when the digraphs are strongly connected. The transient of such periodicity depends, in general, both on the size of digraph and on the magnitude of the weights. In this paper, we show that some bounds on the indices of periodicity of (unweighted) digraphs, such as the bounds of Wielandt, Dulmage–Mendelsohn, Schwarz, Kim and Gregory–Kirkland–Pullman, apply to the weights of optimal walks when one of their ends is a critical node.

KW - Optimal walks

KW - Max algebra

KW - Nonnegative matrices

KW - Matrix powers

KW - Index of convergence

KW - Transient

KW - Weighted digraphs

U2 - 10.1016/j.dam.2014.06.026

DO - 10.1016/j.dam.2014.06.026

M3 - Article

SN - 0166-218X

VL - 178

SP - 121

EP - 134

JO - Discrete Applied Mathematics

JF - Discrete Applied Mathematics

ER -

Generalizations of bounds on the index of convergence to weighted digraphs

Abstract

Keywords

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Perron-Frobenius Theory and Max-Algebraic Combinatorics of Nonnegative Matrices

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