A fuzzy logic approach for highly dependable medical wearable systems

Author

Oliveira, Cristina C. ; Machado da Silva, Jose

Author_Institution

INESC TEC, Fac. de Eng., Univ. do Porto, Porto, Portugal

fYear

2015

fDate

24-26 June 2015

Firstpage

1

Lastpage

5

Abstract

A new methodology for fault detection on wearable medical devices is proposed. The main strategy relies on correctly classifying the captured physiological signals, in order to distinguish whether the actual cause is a wearer health abnormality or a system functional flaw. Data fusion techniques, namely fuzzy logic, are employed to process the captured data, like the electrocardiogram and blood pressure, to increase the trust levels with which diagnostics are made. Concerning the wearer condition, additional information is provided after classifying the set of signals into normal or abnormal (e.g. arrhythmia, chest angina, and stroke). As for the monitoring system, once an abnormal situation is detected in its operation or in the sensors, a set of tests is run to check if actually the wearer shows a degradation of his health condition or if the system is reporting erroneous values.

Keywords

bioelectric potentials; biomedical equipment; electrocardiography; fault diagnosis; fuzzy logic; medical disorders; medical signal processing; sensor fusion; arrhythmia; blood pressure; chest angina; data capture; data fusion techniques; electrocardiogram; fault detection; fuzzy logic approach; health abnormality; health condition; highly dependable medical wearable systems; physiological signals; stroke; system functional flaw; Biomedical monitoring; Electrocardiography; Fuzzy logic; Heart rate; Impedance; Monitoring; Sensors;

fLanguage

English

Publisher

ieee

Conference_Titel

Mixed-Signal Testing Workshop (IMSTW), 2015 20th International

Conference_Location

Paris

Type

conf

DOI

10.1109/IMS3TW.2015.7177874

Filename

7177874