Deep learning with Bayesian Hyperparameter Optimization for Precise Electrocardiogram Signals Delineation

Dublin Core

Title

Deep learning with Bayesian Hyperparameter Optimization for Precise Electrocardiogram Signals Delineation

Subject

bayesian optimization;deep learning; ECG delineation

Description

Electrocardiography (ECG)serves as an essential risk-stratification tool to observe further treatment for cardiac abnormalities. The cardiac abnormalities are indicated by the intervals and amplitude locations in the ECG waveform. ECG delineation plays a crucial role in identifying the critical points necessary for observing cardiac abnormalities based on the characteristics and features of the waveform. In this study, we propose a deep learning approach combined with Bayesian Hyperparameter Optimization (BHO) for hyperparameter tuning to delineate the ECG signal. BHO is an optimization method utilized to determine the optimal values of an objective function. BHO allows for efficient and faster parameter search compared to conventional tuning methods, such as grid search. This method focuses on the most promising search areas in the parameter space, iteratively builds a probability model of the objective function, and then uses that model to select new points to test. The used hyperparameters of BHO contain learning rate, batch size, epoch, and total of long short-term memory layers. The study resulted in the development of 40 models, with the best model achieving a 99.285 accuracy, 94.5% sensitivity, 99.6%specificity,and 94.05% precision. The ECG delineation-based deep learning with BHO shows its excellence for localization and position of the onset, peak, and offset of ECG waveforms. The proposed model can be applied in medical applications for ECG delineation

Creator

Annisa Darmawahyuni1*, Winda Kurnia Sari2, Nurul Afifah3, Siti Nurmaini4, Jordan Marcelino5, Rendy Isdwanta6

Source

https://jurnal.iaii.or.id/index.php/RESTI/article/view/6171/1040

Publisher

Intelligent Systems Research Group, Faculty of Computer Science, Universitas Sriwijaya, Palembang, Indonesia

Date

08-04-2025

Contributor

FAJAR BAGUS W

Format

PDF

Language

ENGLISH

Type

TEXT

Files

Collection

Vol 9 No 2 (2025)

Citation

Annisa Darmawahyuni1*, Winda Kurnia Sari2, Nurul Afifah3, Siti Nurmaini4, Jordan Marcelino5, Rendy Isdwanta6, “Deep learning with Bayesian Hyperparameter Optimization for Precise Electrocardiogram Signals Delineation,” Repository Horizon University Indonesia, accessed January 26, 2026, https://repository.horizon.ac.id/items/show/10504.