Model-Driven Heart Rate Estimation and Heart Murmur Detection Based On Phonocardiogram

• Published in: 2024 IEEE 34th International Workshop on Machine Learning for Signal Processing (MLSP) pp. 1 - 6
• Main Authors: Nie, Jingping, Liu, Ran, Mahasseni, Behrooz, Mitra, Vikramjit
• Format: Conference Proceeding
• Language: English
• Published: IEEE 22.09.2024
• Subjects: Accuracy; Analytical models; Estimation; Health Care; Heart Murmur Detection; Heart rate; Heart Rate Estimation; Machine Learning; Multitasking; Neural networks; Patient monitoring; Phonocardiogram (PCG); Phonocardiography; Root mean square; Spectrogram
• ISSN: 2161-0371
• DOI: 10.1109/MLSP58920.2024.10734726

Acoustic signals are crucial for health monitoring, particularly heart sounds which provide essential data like heart rate and detect cardiac anomalies such as murmurs. This study utilizes a publicly available phonocardiogram (PCG) dataset to estimate heart rate using model-driven methods and extends the best-performing model to a multi-task learning (MTL) framework for simultaneous heart rate estimation and murmur detection. Heart rate estimates are derived using a sliding window technique on heart sound snippets and analyzed with a combination of acoustic features (Mel spectrogram, Mel-frequency cepstral coefficients, power spectral density, root mean square energy). Our findings indicate that a 2D convo-lutional neural network (2dCNN) is most effective for heart rate estimation, achieving a mean absolute error (MAE) of 1.312 bpm. We systematically investigate the impact of different feature combinations and find that utilizing all four features yields the best results. The MTL model (2dCNN-MTL) achieves over 95% accuracy in murmur detection, surpassing existing models, while maintaining an MAE of 1.636 bpm in heart rate estimation, satisfying the requirements stated by Association for the Advancement of Medical Instrumentation (AAMI).