Title :
Sampling Zeros of Discrete Models for Fractional Order Systems
Author :
Yucra, Eduardo A. ; Yuz, Juan I. ; Goodwin, Graham C.
Author_Institution :
Electron. Eng. Dept., Univ. Tec. Federico Santa Maria, Valparaiso, Chile
Abstract :
Most real systems evolve in continuous-time and are modeled using differential equations. However, (discrete-time) sampled-data models are necessary to describe the interaction with digital devices. For rational transfer functions, with integer-order derivatives, a well known consequence of the sampling process is the presence of sampling zeros. In this note we extend this result to systems described in terms of fractional-order derivatives. Specifically we define fractional-order Euler-Frobenius polynomials and we use them to characterize the asymptotic sampling zeros for fractional systems as the sampling period tends to zero.
Keywords :
continuous time systems; differential equations; discrete time systems; polynomials; sampled data systems; transfer functions; asymptotic sampling zeros; continuous-time system; differential equations; discrete-time models; fractional order systems; fractional-order Euler-Frobenius polynomials; fractional-order derivatives; integer-order derivatives; rational transfer functions; sampled-data models; sampling process; Approximation methods; Fractional calculus; Laplace equations; Polynomials; Transfer functions; Analog-digital conversion; fractional calculus; modeling;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2254000
