Sensors (Mar 2022)

Distance-Based Detection of Cough, Wheeze, and Breath Sounds on Wearable Devices

  • Bing Xue,
  • Wen Shi,
  • Sanjay H. Chotirmall,
  • Vivian Ci Ai Koh,
  • Yi Yang Ang,
  • Rex Xiao Tan,
  • Wee Ser

DOI
https://doi.org/10.3390/s22062167
Journal volume & issue
Vol. 22, no. 6
p. 2167

Abstract

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Smart wearable sensors are essential for continuous health-monitoring applications and detection accuracy of symptoms and energy efficiency of processing algorithms are key challenges for such devices. While several machine-learning-based algorithms for the detection of abnormal breath sounds are reported in literature, they are either too computationally expensive to implement into a wearable device or inaccurate in multi-class detection. In this paper, a kernel-like minimum distance classifier (K-MDC) for acoustic signal processing in wearable devices was proposed. The proposed algorithm was tested with data acquired from open-source databases, participants, and hospitals. It was observed that the proposed K-MDC classifier achieves accurate detection in up to 91.23% of cases, and it reaches various detection accuracies with a fewer number of features compared with other classifiers. The proposed algorithm’s low computational complexity and classification effectiveness translate to great potential for implementation in health-monitoring wearable devices.

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