Detail publikace

Signal-Invariance S-Z Transform for Effective Digital Filter Design

Originální název

Signal-Invariance S-Z Transform for Effective Digital Filter Design

Anglický název

Signal-Invariance S-Z Transform for Effective Digital Filter Design

Jazyk

en

Originální abstrakt

A computer algorithm of the z-domain transfer function evaluation of a discrete-time (DT) system is presented. This system is designed from its continuous-time (CT) prototype using the signal invariance method. The impulse, step, and linear invariances are described. The set of two-graph modified nodal approach (2-graph MNA) equations, state-space equations or s-domain transfer function can be regarded as the model of analog counterpart. The procedure is based on the algorithm of numerical Laplace inversion.

Anglický abstrakt

A computer algorithm of the z-domain transfer function evaluation of a discrete-time (DT) system is presented. This system is designed from its continuous-time (CT) prototype using the signal invariance method. The impulse, step, and linear invariances are described. The set of two-graph modified nodal approach (2-graph MNA) equations, state-space equations or s-domain transfer function can be regarded as the model of analog counterpart. The procedure is based on the algorithm of numerical Laplace inversion.

BibTex


@inproceedings{BUT6868,
  author="Dalibor {Biolek} and Viera {Biolková}",
  title="Signal-Invariance S-Z Transform for Effective Digital Filter Design",
  annote="A computer algorithm of the z-domain transfer function evaluation of a discrete-time (DT) system is presented. This system is designed from its continuous-time (CT) prototype using the signal invariance method. The impulse, step, and linear invariances are described. The set of two-graph modified nodal approach (2-graph MNA) equations, state-space equations or s-domain transfer function can be regarded as the model of analog counterpart. The procedure is based on the algorithm of numerical Laplace inversion.",
  address="ACTA Press",
  booktitle="Signal and Image Processing (Proceedings of the IASTED International Conference SIP2001)",
  chapter="6868",
  institution="ACTA Press",
  year="2001",
  month="august",
  pages="373",
  publisher="ACTA Press",
  type="conference paper"
}