Time-frequency digital filtering based on an invertible wavelet transform: an application to evoked potentials

Author

Bertrand, Olivier ; Bohorquez, Jorge ; Pernier, J.

Author_Institution

Brain Signals & Processes Lab., Inst. Nat. de la Sante et de la Recherche Medicale, Lyon, France

Volume

41

Issue

1

fYear

1994

Firstpage

77

Lastpage

88

Abstract

Presents a method to analyze and filter digital signals of finite duration by means of a time-frequency representation. This is done by defining a purely invertible discrete transform, representing a signal either in the time or in the time-frequency domain, as simply as possible with the conventional discrete Fourier transform between the time and the frequency domains. The wavelet concept has been used to build this transform. To get a correct invertibility of this procedure, the authors have proposed orthogonal and periodic basic discrete wavelets. The properties of such a transform are described, and examples on brain-evoked potential signals are given to illustrate the time-frequency filtering possibilities.

Keywords

bioelectric potentials; brain; filtering and prediction theory; medical signal processing; time-frequency analysis; waveform analysis; brain evoked potential signals; digital signals analysis; discrete Fourier transform; finite duration signals; invertible wavelet transform; orthogonal periodic basic discrete wavelets; purely invertible discrete transform; time-frequency digital filtering; time-frequency domain; transform properties; Bandwidth; Digital filters; Discrete transforms; Discrete wavelet transforms; Filtering; Signal analysis; Time frequency analysis; Wavelet analysis; Wavelet transforms; Wiener filter; Brain; Evoked Potentials; Fourier Analysis; Humans; Signal Processing, Computer-Assisted;

fLanguage

English

Journal_Title

Biomedical Engineering, IEEE Transactions on

Publisher

ieee

ISSN

0018-9294

Type

jour

DOI

10.1109/10.277274

Filename

277274