On the Laguerre Rational Approximation to Fractional Discrete Derivative and Integral Operators

Author

Maione, Guido

Author_Institution

Dipt. di Elettrotec. ed Elettron., Politec. di Bari, Bari, Italy

Volume

58

Issue

6

fYear

2013

fDate

Jun-13

Firstpage

1579

Lastpage

1585

Abstract

This note ties the Laguerre continued fraction expansion of the Tustin fractional discrete-time operator to irreducible Jacobi tri-diagonal matrices. The aim is to prove that the Laguerre approximation to the Tustin fractional operator s^-ν (or s^ν ) is stable and minimum-phase for any value 0 <; ν <; 1 of the fractional order ν. It is also shown that zeros and poles of the approximation are interlaced and lie in the unit circle of the complex z -plane, keeping a special symmetry on the real axis. The quality of the approximation is analyzed both in the frequency and time domain. Truncation error bounds of the approximants are given.

Keywords

Jacobian matrices; approximation theory; poles and zeros; stochastic processes; Laguerre approximation; Laguerre continued fraction expansion; Laguerre rational approximation; Tustin fractional discrete-time operator; Tustin fractional operator; complex z -plane; fractional discrete derivative; integral operators; irreducible Jacobi tri-diagonal matrices; truncation error bounds; zeros and poles; Approximation methods; Eigenvalues and eigenfunctions; Finite wordlength effects; Jacobian matrices; Laplace equations; Poles and zeros; Polynomials; Differintegrators; Jacobi matrices; Laguerre continued fraction; Tustin discretization; fractional-order control; fractional-order operators; zero-pole interlacing;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2013.2244273

Filename

6425409