2021
DOI: 10.48550/arxiv.2105.01165
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Explicit formulas for the inverses of Toeplitz matrices, with applications

Abstract: We derive explicit formulas for the inverses of truncated block Toeplitz matrices that have a positive Hermitian matrix symbol with integrable inverse. The main ingredients of the formulas are the Fourier coefficients of the phase function attached to the symbol. The derivation of the formulas involves the dual process of a stationary process that has the symbol as spectral density. We illustrate the usefulness of the formulas by two applications. The first one is a strong convergence result for solutions of T… Show more

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Cited by 1 publication
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“…Consider the n × n Toeplitz matrix T n (f ) = (c(s−t); 0 ≤ s, t ≤ n−1) and d (n) k,j = (T n (f ) −1 ) k,j . There are several different expressions for d (n) k,j including the Cholesky decomposition given in Akaike (1969), Pourahmadi (2001), and Jentsch and Meyer (2021) or expressions based on a dual process representation; Subba Rao and Yang (2021) and Inoue (2021). The arguments in this article can also be used to obtain an alternative expression for the inverse of a finite dimensional Toeplitz matrix.…”
Section: General Wiener-hopf Equationsmentioning
confidence: 99%
“…Consider the n × n Toeplitz matrix T n (f ) = (c(s−t); 0 ≤ s, t ≤ n−1) and d (n) k,j = (T n (f ) −1 ) k,j . There are several different expressions for d (n) k,j including the Cholesky decomposition given in Akaike (1969), Pourahmadi (2001), and Jentsch and Meyer (2021) or expressions based on a dual process representation; Subba Rao and Yang (2021) and Inoue (2021). The arguments in this article can also be used to obtain an alternative expression for the inverse of a finite dimensional Toeplitz matrix.…”
Section: General Wiener-hopf Equationsmentioning
confidence: 99%