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Noisy Neonatal Chest Sound Separation for High-Quality Heart and Lung Sounds

Ethan Grooby, Chiranjibi Sitaula, Davood Fattahi, Reza Sameni, Kenneth Tan, Lindsay Zhou, Arrabella King, Ashwin Ramanathan, Anil K. Malhotra, Guy A. Dumont, Faezeh Marzbanrad

2022IEEE Journal of Biomedical and Health Informatics26 citationsDOI

Abstract

Stethoscope-recorded chest sounds provide the opportunity for remote cardio-respiratory health monitoring of neonates. However, reliable monitoring requires high-quality heart and lung sounds. This paper presents novel artificial intelligence-based Non-negative Matrix Factorisation (NMF) and Non-negative Matrix Co-Factorisation (NMCF) methods for neonatal chest sound separation. To assess these methods and compare them with existing single-channel separation methods, an artificial mixture dataset was generated comprising heart, lung, and noise sounds. Signal-to-noise ratios were then calculated for these artificial mixtures. These methods were also tested on real-world noisy neonatal chest sounds and assessed based on vital sign estimation error, and a signal quality score of 1-5, developed in our previous works. Overall, both the proposed NMF and NMCF methods outperform the next best existing method by 2.7 dB to 11.6 dB for the artificial dataset, and 0.40 to 1.12 signal quality improvement for the real-world dataset. The median processing time for the sound separation of a 10 s recording was found to be 28.3 s for NMCF and 342 ms for NMF. With the stable and robust performance of our proposed methods, we believe these methods are useful to denoise neonatal heart and lung sounds in the real-world environment.

Topics & Concepts

Non-negative matrix factorizationHeart soundsComputer scienceStethoscopeSpeech recognitionRespiratory soundsNoise (video)Sound qualityAuscultationPattern recognition (psychology)Artificial intelligenceSIGNAL (programming language)MedicineMatrix decompositionCardiologyAsthmaRadiologyInternal medicinePhysicsEigenvalues and eigenvectorsProgramming languageQuantum mechanicsImage (mathematics)Phonocardiography and Auscultation TechniquesSpeech and Audio ProcessingMusic and Audio Processing
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