• DocumentCode
    1466327
  • Title

    Heart Rate and Accelerometer Data Fusion for Activity Assessment of Rescuers During Emergency Interventions

  • Author

    Curone, D. ; Tognetti, A. ; Secco, E.L. ; Anania, G. ; Carbonaro, N. ; De Rossi, D. ; Magenes, G.

  • Author_Institution
    Eur. Centre for Training & Res. in Earthquake Eng., Pavia, Italy
  • Volume
    14
  • Issue
    3
  • fYear
    2010
  • fDate
    5/1/2010 12:00:00 AM
  • Firstpage
    702
  • Lastpage
    710
  • Abstract
    The current state of the art in wearable electronics is the integration of very small devices into textile fabrics, the so-called ??smart garment.?? The ProeTEX project is one of many initiatives dedicated to the development of smart garments specifically designed for people who risk their lives in the line of duty such as fire fighters and Civil Protection rescuers. These garments have integrated multipurpose sensors that monitor their activities while in action. To this aim, we have developed an algorithm that combines both features extracted from the signal of a triaxial accelerometer and one ECG lead. Microprocessors integrated in the garments detect the signal magnitude area of inertial acceleration, step frequency, trunk inclination, heart rate (HR), and HR trend in real time. Given these inputs, a classifier assigns these signals to nine classes differentiating between certain physical activities (walking, running, moving on site), intensities (intense, mild, or at rest) and postures (lying down, standing up). Specific classes will be identified as dangerous to the rescuer during operation, such as, ??subject motionless lying down?? or ??subject resting with abnormal HR.?? Laboratory tests were carried out on seven healthy adult subjects with the collection of over 4.5 h of data. The results were very positive, achieving an overall classification accuracy of 88.8%.
  • Keywords
    accelerometers; biomechanics; cardiology; electrocardiography; fabrics; feature extraction; intelligent sensors; microprocessor chips; protective clothing; sensor fusion; signal classification; signal detection; textile technology; ECG lead; ProeTEX project; accelerometer data fusion; activity assessment; civil protection rescuers; emergency interventions; feature extraction; fire fighters; heart rate; inertial acceleration; integrated multipurpose sensors; lying down; microprocessors; moving; physical activities; postures; running; signal classifier; signal magnitude detection; small devices; smart garment; standing up; step frequency; textile fabrics; triaxial accelerometer signal; trunk inclination; walking; wearable electronics; Accelerometer; heart rate (HR); sensor fusion; smart protective textiles; wearable electronics; Adult; Algorithms; Clothing; Electrocardiography; Emergency Medical Technicians; Heart Rate; Humans; Kinetocardiography; Locomotion; Male; Monitoring, Ambulatory; Motor Activity; Rescue Work; Signal Processing, Computer-Assisted;
  • fLanguage
    English
  • Journal_Title
    Information Technology in Biomedicine, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1089-7771
  • Type

    jour

  • DOI
    10.1109/TITB.2010.2047727
  • Filename
    5444948