Title :
On the Laguerre Rational Approximation to Fractional Discrete Derivative and Integral Operators
Author_Institution :
Dipt. di Elettrotec. ed Elettron., Politec. di Bari, Bari, Italy
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 sν ) 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;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2244273
