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Design optimization of 3D printed digital stetheocope for low-cost telemedicine.

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Goh, R. X., Loo, K. Q., Tan, Y. C., Wong, Z. Y., Lim, J., Welch, L., Heng, W. W., Ling, T. Y. and Pu, S. H., 2023. Design optimization of 3D printed digital stetheocope for low-cost telemedicine. In: 2023 IEEE International Conference on Sensors and Nanotechnology (SENNANO). New York, NY: IEEE, 137-140.

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DOI: 10.1109/SENNANO57767.2023.10352567

Abstract

Modern day acoustic stethoscope is a necessary equipment to aid clinical practitioners in performing diagnosis on patients. For initial assessments and long-term medical evaluations, it is beneficial for patients to be able to monitor their health status between check-ups and for doctors to be able to diagnose patients remotely. In this work, the viability of MEMS-based digital stethoscope as an alternative solution for a low-cost diagnostic equipment is proposed. The impacts of various design parameters of a 3D-printed stethoscope’s chest-piece on the sound quality has been investigated. Signal-to-noise ratio (SNR) analysis of various designs achieved up to approximately 5.24 dB without any signal processing, indicating clear and audible heart sounds. In addition, the development and implementation of a novel web-based application with digital stethoscope is also proposed in this work for potential real-time remote auscultation.

Item Type:Book Section
ISBN:979-8-3503-3331-2
Additional Information:2023 IEEE International Conference on Sensors and Nanotechnology (SENNANO) took place 26-27 September 2023 in Putrajaya, Malaysia.
Uncontrolled Keywords:Digital Stethoscope; MEMs Microphones; Respiratory Diagnostics; Low-resources
Group:Faculty of Health & Social Sciences
ID Code:39307
Deposited By: Symplectic RT2
Deposited On:12 Jan 2024 17:19
Last Modified:30 Jan 2024 09:12

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