Paper Info
Title
Constructing Strong Linearizations of Matrix Polynomials Expressed in Chebyshev Bases.
Abstract
The need to solve polynomial eigenvalue problems for matrix polynomials expressed in nonmonomial bases has become very important. Among the most important bases in numerical applications are the Chebyshev polynomials of the first and second kind. In this work, we introduce a new approach for constructing strong linearizations for matrix polynomials expressed in Chebyshev bases, generalizing the classical colleague pencil, and expanding the arena in which to look for linearizations of matrix polynomials expressed in Chebyshev bases. We show that any of these linearizations is a strong linearization regardless of whether the matrix polynomial is regular or singular. In addition, we show how to recover eigenvectors, minimal indices, and minimal bases of the polynomial from those of any of the new linearizations. As an example, we also construct strong linearizations for matrix polynomials of odd degree that are symmetric (resp., Hermitian) whenever the matrix polynomials are symmetric (resp., Hermitian).
Year
DOI
Venue
2017
10.1137/16M105839X
SIAM JOURNAL ON MATRIX ANALYSIS AND APPLICATIONS
Keywords
Field
DocType
Chebyshev polynomials,Chebyshev pencils,strong linearizations,matrix polynomials,singular matrix polynomials,eigenvector recovery,minimal bases,minimal indices,one-sided factorizations,structure-preserving linearizations
Chebyshev polynomials,Algebra,Classical orthogonal polynomials,Orthogonal polynomials,Polynomial matrix,Elementary symmetric polynomial,Mathematical analysis,Discrete orthogonal polynomials,Gegenbauer polynomials,Jacobi polynomials,Mathematics
Journal
Volume
Issue
ISSN
38
3
0895-4798
Citations 
PageRank 
References 
3
0.43
7
Authors
2
Name
Order
Citations
PageRank
Piers W. Lawrence1214.77
Javier P ´242.13