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Polish Journal of Medical Physics and Engineering

Volume 29 (2023): Edition 2 (June 2023)

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Détails du magazine
Format
Magazine
eISSN
1898-0309
Première publication
30 Dec 2008
Période de publication
4 fois par an
Langues
Anglais

Chercher

Volume 19 (2013): Edition 2 (December 2013)

Détails du magazine
Format
Magazine
eISSN
1898-0309
Première publication
30 Dec 2008
Période de publication
4 fois par an
Langues
Anglais

Chercher

1 Articles
Accès libre

An infrared-based device for non-invasive monitoring of eyelid movement during sleep

Piotr Wojewnik et
Piotr Wojewnik et
Jakub Żmigrodzki
Jakub Żmigrodzki
Publié en ligne: 07 Mar 2014
Pages: 85 - 91

Résumé

Abstract

The increased movement of eyes and eyelids is characteristic of the rapid eye movement (REM) sleep stage, making it an important indicator in sleep monitoring. A device was designed to detect this activity in a non-invasive way by means of measuring infrared light intensity reflected off the eyelid. The system converts the light intensity into current through a photodetector, performs analog signal processing and analog to digital conversion (ADC). The data is transmitted wirelessly to a computer, where the results can be displayed, stored and analyzed with a dedicated software, which also provides control over the device. The hardware is embedded in a mask, which is put over the patient's eyes. User safety in terms of mechanical, electrical and optical dangers has been ensured. The device was tested on a napping subject.

Key words:

  • sleep
  • eye
  • movement detection
  • infrared
  • rapid eye movement
1 Articles
Accès libre

An infrared-based device for non-invasive monitoring of eyelid movement during sleep

Piotr Wojewnik et
Piotr Wojewnik et
Jakub Żmigrodzki
Jakub Żmigrodzki
Publié en ligne: 07 Mar 2014
Pages: 85 - 91

Résumé

Abstract

The increased movement of eyes and eyelids is characteristic of the rapid eye movement (REM) sleep stage, making it an important indicator in sleep monitoring. A device was designed to detect this activity in a non-invasive way by means of measuring infrared light intensity reflected off the eyelid. The system converts the light intensity into current through a photodetector, performs analog signal processing and analog to digital conversion (ADC). The data is transmitted wirelessly to a computer, where the results can be displayed, stored and analyzed with a dedicated software, which also provides control over the device. The hardware is embedded in a mask, which is put over the patient's eyes. User safety in terms of mechanical, electrical and optical dangers has been ensured. The device was tested on a napping subject.

Key words:

  • sleep
  • eye
  • movement detection
  • infrared
  • rapid eye movement