The Filtering Effect on Simulated Signals under Consideration of Entropy Methods

Edthofer, Alexander; Körner, Andreas

Datensatz Zitierlink:

http://hdl.handle.net/20.500.12708/200606

Titel:

The Filtering Effect on Simulated Signals under Consideration of Entropy Methods

Zitat:

Edthofer, A., & Körner, A. (2024). The Filtering Effect on Simulated Signals under Consideration of Entropy Methods. In O. Rose & T. Uhlig (Eds.), ASIM SST 2024: Tagungsband Kurzbeiträge (pp. 29–31). ARGESIM Verlag. http://hdl.handle.net/20.500.12708/200606

CatalogPlus:

AC17392850

Publikationstyp:

Konferenzbeitrag - Beitrag in einem Abstract Book

Sprache:

Englisch

Autor_innen:

Edthofer, Alexander
Körner, Andreas

Organisationseinheit:

E101-03-3 - Forschungsgruppe Mathematik in Simulation und Ausbildung
E060-03-1 - Fachgruppe Innovative Methods and Models for Teaching and Learning
E060-04 - Fachbereich Prozessmanagement in der Lehrentwicklung
E065-01 - Fachbereich Center for Technology and Society (CTS)

Erschienen in:

ASIM SST 2024: Tagungsband Kurzbeiträge

ISBN:

978-3-903347-64-9

Band:

DOI des Buches:

10.11128/arep.46

Datum (veröffentlicht):

5-Sep-2024

Veranstaltungsname:

27. Symposium Simulationstechnik (ASIM SST 2024)

Veranstaltungszeitraum:

4-Sep-2024 - 6-Sep-2024

Veranstaltungsort:

München, Deutschland

Umfang:

Verlag:

ARGESIM Verlag, Wien

Keywords:

colored noise; permutation entropy; entropy of difference; time series analysis

Abstract:

In this work, we investigate the impact of low-pass filters on two entropy methods, Permutation Entropy (PE) and Entropy of Difference (EoD), using simulated noise signals. Colored noise, specifically white, pink and brown noise, was generated and filtered with passband frequencies of 30 Hz, 40 Hz and 50 Hz, alongside unfiltered signals. The PE and EoD values were computed to analyze the effects of filtering. The results indicate that both entropy measures decrease with lower pass-band frequencies. PE can effectively distinguish between pink and brown noise with and without a lowpass filter, while EoD shows similar differentiation only with filtering. These findings highlight the sensitivity of entropy measures to lowpass filtering, with implications for their application in EEG analysis.

Forschungsschwerpunkte:

Modeling and Simulation: 100%

Wissenschaftszweig:

1010 - Mathematik: 100%

Lizenz:

Urheberrechtsschutz

Enthalten in den Sammlungen:

Conference Paper