Onset Detection of Pulse-Shaped Bioelectrical Signals Using Linear State Space Models
Version
Published
Date Issued
2022-09-30
Author(s)
Type
Conference Paper
Language
English
Abstract
Bioelectrical signals are often pulse-shaped with superimposed interference signals. In this context, accurate identification of features such as pulse onsets, peaks, ampli- tudes, and duration is a frequent problem. In this paper, we present a versatile method of rather low computational complexity to robustly identify such features in real-world signals.
For that, we take use of two straight-line models fit to the observations by minimizing a quadratic cost term, and then identify desired features by tweaked likelihood measures. To demonstrate the idea and facilitate access to the method, we provide examples from the field of cardiology.
For that, we take use of two straight-line models fit to the observations by minimizing a quadratic cost term, and then identify desired features by tweaked likelihood measures. To demonstrate the idea and facilitate access to the method, we provide examples from the field of cardiology.
Subjects
TK Electrical engineering. Electronics Nuclear engineering
Publisher DOI
Publisher URL
Volume
67
Issue
s1
Conference
BMT 2022: Abstracts of the 2022 Joint Annual Conference of the Austrian (ÖGBMT), German (VDE DGBMT) and Swiss (SSBE) Societies for Biomedical Engineering
Publisher
Walter de Gruyter
Submitter
BaeriswylC
Citation apa
Waldmann, F., Baeriswyl, C., Andonie, R., & Wildhaber, R. A. (2022). Onset Detection of Pulse-Shaped Bioelectrical Signals Using Linear State Space Models (Vol. 67, Issue s1). Walter de Gruyter. https://doi.org/10.24451/arbor.18006
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