Influence of the Training Set Composition on the Estimation Performance of Linear ECG-Lead Transformations
- Linear ECG-lead transformations (LELTs) are used to estimate unrecorded target leads by applying a number of recorded basis leads to a LELT matrix. Such LELT matrices are commonly developed using training datasets that are composed of ECGs that belong to different diagnostic classes (DCs). The aim of our research was to assess the influence of the training set composition on the estimation performance of LELTs that estimate target leads V1, V3, V4 and V6 from basis leads I, II, V2 and V5 of the 12-lead ECG. Our assessment was performed using ECGs from the three DCs left ventricular hypertrophy, right bundle branch block and normal (ECGs without abnormalities). Training sets with different DC compositions were used for the development of LELT matrices. These matrices were used to estimate the target leads of different test sets. The estimation performance of the developed matrices was quantified using root mean square error values calculated between derived and recorded target leads. Our findings indicate that unbalanced training setsLinear ECG-lead transformations (LELTs) are used to estimate unrecorded target leads by applying a number of recorded basis leads to a LELT matrix. Such LELT matrices are commonly developed using training datasets that are composed of ECGs that belong to different diagnostic classes (DCs). The aim of our research was to assess the influence of the training set composition on the estimation performance of LELTs that estimate target leads V1, V3, V4 and V6 from basis leads I, II, V2 and V5 of the 12-lead ECG. Our assessment was performed using ECGs from the three DCs left ventricular hypertrophy, right bundle branch block and normal (ECGs without abnormalities). Training sets with different DC compositions were used for the development of LELT matrices. These matrices were used to estimate the target leads of different test sets. The estimation performance of the developed matrices was quantified using root mean square error values calculated between derived and recorded target leads. Our findings indicate that unbalanced training sets can lead to LELTs that show large estimation performance variability across different DCs. Balanced training sets were found to produce LELTs that performed well across multiple DCs. We recommend balanced training sets for the development of LELTs.…
Author: | Güldenring DanielORCiD, Finlay DewarORCiD, Bond RaymondORCiD, Kennedy AlanORCiD, Doggart PeterORCiD, Janjua Ghalib, McLaughlin JamesORCiD |
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DOI: | https://doi.org/10.22489/CinC.2023.263 |
Identifier: | 979-8-3503-8252-5 OPAC HS OPAC extern |
Identifier: | 2325-887X OPAC HS OPAC extern |
Parent Title (English): | Computing in Cardiology 2023 |
Publisher: | IEEE |
Place of publication: | Piscataway |
Document Type: | conference proceeding (article) |
Conference: | 2023 Computing in Cardiology (CinC) 01-04. Oct. 2023, Atlanta, Georgia, USA |
Language: | English |
Date of Publication (online): | 2023/12/26 |
Year of first Publication: | 2023 |
Tag: | Biomedizinische Signalverarbeitung |
GND Keyword: | Elektrokardiogramm |
Volume: | 2023 |
Issue: | 50 |
Number of pages: | 4 Seiten |
First Page: | 1 |
Last Page: | 4 |
Institutes: | Fakultät Elektrotechnik |
Dewey Decimal Classification: | 0 Informatik, Informationswissenschaft, allgemeine Werke / 00 Informatik, Wissen, Systeme / 000 Informatik, Informationswissenschaft, allgemeine Werke |
Open Access: | open_access |
Research focus: | Eigenständige Forschungsfelder |
Publication Lists: | Güldenring, Daniel |
Publication reviewed: | begutachtet |
Licence (German): | Es gilt das deutsche Urheberrecht |
Release Date: | 2024/02/16 |