Detail publikace

Optimisation of the Transient Response of a Digital Filter

Originální název

Optimisation of the Transient Response of a Digital Filter

Anglický název

Optimisation of the Transient Response of a Digital Filter

Jazyk

en

Originální abstrakt

The papers presents theoretical analysis of the method that enables optimisation of the transient response of a digital filter or of an arbitrary discrete system, by pre-setting the initial conditions of the inner state description. For a particular design of a filter it is enough to once evaluate coefficients, multiply them by the magnitude of the first sample of the signal and do filtration by using these initial conditions. The method was verified using the simulated, and NMR signals to maintain spectrum baselines correction, and will also by used for the study of an optimum filtration of the NMR signal with a variable instantaneous frequency.

Anglický abstrakt

The papers presents theoretical analysis of the method that enables optimisation of the transient response of a digital filter or of an arbitrary discrete system, by pre-setting the initial conditions of the inner state description. For a particular design of a filter it is enough to once evaluate coefficients, multiply them by the magnitude of the first sample of the signal and do filtration by using these initial conditions. The method was verified using the simulated, and NMR signals to maintain spectrum baselines correction, and will also by used for the study of an optimum filtration of the NMR signal with a variable instantaneous frequency.

BibTex


@article{BUT40427,
  author="Petr {Sadovský} and Karel {Bartušek}",
  title="Optimisation of the Transient Response of a Digital Filter",
  annote="The papers presents theoretical analysis of the method that enables optimisation of the transient response of a digital filter or of an arbitrary discrete system, by pre-setting the initial conditions of the inner state description.

For a particular design of a filter it is enough to once evaluate coefficients, multiply them by the magnitude of the first sample of the signal and do filtration by using these initial conditions.

The method was verified using the simulated, and NMR signals to maintain spectrum baselines correction, and will also by used for the study of an optimum filtration of the NMR signal with a variable instantaneous frequency.
",
  chapter="40427",
  journal="Radioengineering",
  number="2",
  volume="9",
  year="2000",
  month="june",
  pages="14",
  type="journal article - other"
}