CoughLoc: Location-Aware Indoor Acoustic Sensing for Non-Intrusive Cough Detection

Pervasive medical monitoring has become an ideal alternative to nursing care for elderly people and patients in hospitals. Existing systems using single body-worn sensors are often intrusive and less reliable. By contrast, ubiquitous acoustic sensing techniques can support non-intrusive and robust medical monitoring. In this paper, we describe CoughLoc, a ubiquitous acoustic sensing system for continuous cough detection using a wireless sensor network. We show how knowledge of sound source locations can be leveraged to improve the detection accuracy of sound events caused by mobile users. Experiments in indoor environments show our system achieves over 90% cough detection performance under quiet backgrounds, and 1.6 times higher performance compared to a baseline approach with no location information.

[1]  Sung-Hwan Shin,et al.  Automatic Detection System for Cough Sounds as a Symptom of Abnormal Health Condition , 2009, IEEE Transactions on Information Technology in Biomedicine.

[2]  Shyamal Patel,et al.  Mercury: a wearable sensor network platform for high-fidelity motion analysis , 2009, SenSys '09.

[3]  Kung Yao,et al.  Acoustic source localization using the acoustic ENSBox , 2007, IPSN.

[4]  David H. Evans,et al.  An Automated System for 24-h Monitoring of Cough Frequency: The Leicester Cough Monitor , 2007, IEEE Transactions on Biomedical Engineering.

[5]  Alessio Brutti,et al.  Localization of multiple speakers based on a two step acoustic map analysis , 2008, 2008 IEEE International Conference on Acoustics, Speech and Signal Processing.

[6]  Yutaka Hata,et al.  Human health monitoring system of systems by non-contacted senors , 2009, 2009 IEEE International Conference on System of Systems Engineering (SoSE).

[7]  J. Widdicombe,et al.  Cough : causes, mechanisms, and therapy , 2003 .

[8]  Kung Yao,et al.  An Empirical Study of Collaborative Acoustic Source Localization , 2009, J. Signal Process. Syst..

[9]  Ben J. A. Kröse,et al.  Healthcare Systems and Other Applications , 2007, IEEE Pervasive Computing.

[10]  Hervé Bourlard,et al.  Improving speech recognition performance of small microphone arrays using missing data techniques , 2002, INTERSPEECH.

[11]  Kian Fan Chung The Clinical and Pathophysiological Challenge of Cough , 2008 .

[12]  Radford M. Neal Pattern Recognition and Machine Learning , 2007, Technometrics.

[13]  Wei Pan,et al.  SoundSense: scalable sound sensing for people-centric applications on mobile phones , 2009, MobiSys '09.

[14]  Ilias Maglogiannis,et al.  Advanced patient or elder fall detection based on movement and sound data , 2008, 2008 Second International Conference on Pervasive Computing Technologies for Healthcare.

[15]  E. LESTER SMITH,et al.  AND OTHERS , 2005 .

[16]  Michael S. Brandstein,et al.  A practical methodology for speech source localization with microphone arrays , 1997, Comput. Speech Lang..

[17]  David H. Evans,et al.  Detection of cough signals in continuous audio recordings using hidden Markov models , 2006, IEEE Transactions on Biomedical Engineering.

[18]  Gyula Simon,et al.  Countersniper system for urban warfare , 2005, TOSN.