• DocumentCode
    1603728
  • Title

    Imaging Breathing Rate in the CO2Absorption Band

  • Author

    Fei, Jin ; Zhu, Zhen ; Pavlidis, Ioannis

  • Author_Institution
    Dept. of Comput. Sci., Houston Univ., TX
  • fYear
    2005
  • fDate
    6/27/1905 12:00:00 AM
  • Firstpage
    700
  • Lastpage
    705
  • Abstract
    Following up on our previous work, we have developed one more non-contact method to measure human breathing rate. We have retrofitted our mid-wave infra-red (MWIR) imaging system with a narrow band-pass filter in the CO2 absorption band (4.3 mum). This improves the contrast between the foreground (i.e., expired air) and background (e.g., wall). Based on the radiation information within the breath flow region, we get the mean dynamic thermal signal. This signal is quasi-periodic due to the interleaving of high and low intensities corresponding to expirations and inspirations respectively. We sample the signal at a constant rate and then determine the breathing frequency through Fourier analysis. We have performed experiments on 9 subjects at distances ranging from 6 - 8 ft. We compared the breathing rate computed by our novel method with ground-truth measurements obtained via a traditional contact device (PowerLab/4SP from ADInstruments with an abdominal transducer). The results show high correlation between the two modalities. For the first time, we report a Fourier based breathing rate computation method on a MWIR signal in the CO2 absorption band. The method opens the way for desktop, unobtrusive monitoring of an important vital sign, that is, breathing rate. It may find widespread applications in preventive medicine as well as sustained physiological monitoring of subjects suffering from chronic ailments
  • Keywords
    band-pass filters; biomedical optical imaging; biothermics; carbon compounds; fast Fourier transforms; infrared imaging; pneumodynamics; 4.3 mum; 6 to 8 ft; ADInstruments; CO2; CO2 absorption band; Fourier analysis; PowerLab/4SP; abdominal transducer; breath flow region; breathing rate; chronic ailments; dynamic thermal signal; expiration; inspiration; mid-wave infra-red imaging system; narrow band-pass filter; sustained physiological monitoring; Abdomen; Absorption; Anthropometry; Band pass filters; Frequency; Humans; Infrared imaging; Interleaved codes; Monitoring; Signal analysis;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Engineering in Medicine and Biology Society, 2005. IEEE-EMBS 2005. 27th Annual International Conference of the
  • Conference_Location
    Shanghai
  • Print_ISBN
    0-7803-8741-4
  • Type

    conf

  • DOI
    10.1109/IEMBS.2005.1616510
  • Filename
    1616510