An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control

Chih En Kuo; Sheng Fu Liang; Yi Chieh Li; Fu Yin Cherng; Wen-Chieh Lin; Peng Yu Chen; Yen Chen Liu; Fu Zen Shaw

doi:10.5220/0004725600200030

An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control

Chih En Kuo, Sheng Fu Liang, Yi Chieh Li, Fu Yin Cherng, Wen-Chieh Lin, Peng Yu Chen, Yen Chen Liu, Fu Zen Shaw

Department of Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

7 Scopus citations

Abstract

Human beings spend approximately one third of their lives sleeping. Conventionally, to evaluate a subjects sleep quality, all-night polysomnogram (PSG) readings are taken and scored by a well-trained expert. The development of an automatic sleep-staging system that does not rely upon mounting a bulky PSG or EEG recorder on the head will enable physiological computing systems (PhyCS) to progress toward easy sleep and comfortable monitoring. In this paper, an electrooculogram (EOG)-based sleep scoring system is proposed. Compared to PSG or EEG recordings, EOG has the advantage of easy placement, and can be operated by the user individually. The proposed method was found to be more than 83% accurate when compared with the manual scorings applied to sixteen subjects. In addition to sleep-quality evaluation, the proposed system encompasses adaptive brightness control of light according to online monitoring of the users sleep stages. The experiments show that the EOG-based sleep scoring system is a practicable solution for home-use sleep monitoring due to the advantages of comfortable recording and accurate sleep staging.

Original language	English
Title of host publication	PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems
Publisher	SciTePress
Pages	20-30
Number of pages	11
ISBN (Print)	9789897580062
DOIs	https://doi.org/10.5220/0004725600200030
State	Published - Jan 2014
Event	International Conference on Physiological Computing Systems, PhyCS 2014 - Lisbon, Portugal Duration: 7 Jan 2014 → 9 Jan 2014

Publication series

Name	PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems

Conference

Conference	International Conference on Physiological Computing Systems, PhyCS 2014
Country/Territory	Portugal
City	Lisbon
Period	7/01/14 → 9/01/14

Keywords

Adaptive system
Electrooculogram (EOG)
Interaction design
Sleep
Sleep quality
Sleep stage

Access to Document

10.5220/0004725600200030

Cite this

Kuo, C. E., Liang, S. F., Li, Y. C., Cherng, F. Y., Lin, W-C., Chen, P. Y., Liu, Y. C., & Shaw, F. Z. (2014). An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control. In PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems (pp. 20-30). (PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems). SciTePress. https://doi.org/10.5220/0004725600200030

Kuo, Chih En ; Liang, Sheng Fu ; Li, Yi Chieh et al. / An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control. PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems. SciTePress, 2014. pp. 20-30 (PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems).

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title = "An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control",

abstract = "Human beings spend approximately one third of their lives sleeping. Conventionally, to evaluate a subjects sleep quality, all-night polysomnogram (PSG) readings are taken and scored by a well-trained expert. The development of an automatic sleep-staging system that does not rely upon mounting a bulky PSG or EEG recorder on the head will enable physiological computing systems (PhyCS) to progress toward easy sleep and comfortable monitoring. In this paper, an electrooculogram (EOG)-based sleep scoring system is proposed. Compared to PSG or EEG recordings, EOG has the advantage of easy placement, and can be operated by the user individually. The proposed method was found to be more than 83% accurate when compared with the manual scorings applied to sixteen subjects. In addition to sleep-quality evaluation, the proposed system encompasses adaptive brightness control of light according to online monitoring of the users sleep stages. The experiments show that the EOG-based sleep scoring system is a practicable solution for home-use sleep monitoring due to the advantages of comfortable recording and accurate sleep staging.",

keywords = "Adaptive system, Electrooculogram (EOG), Interaction design, Sleep, Sleep quality, Sleep stage",

author = "Kuo, {Chih En} and Liang, {Sheng Fu} and Li, {Yi Chieh} and Cherng, {Fu Yin} and Wen-Chieh Lin and Chen, {Peng Yu} and Liu, {Yen Chen} and Shaw, {Fu Zen}",

year = "2014",

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doi = "10.5220/0004725600200030",

language = "English",

isbn = "9789897580062",

series = "PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems",

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note = "International Conference on Physiological Computing Systems, PhyCS 2014 ; Conference date: 07-01-2014 Through 09-01-2014",

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Kuo, CE, Liang, SF, Li, YC, Cherng, FY, Lin, W-C, Chen, PY, Liu, YC & Shaw, FZ 2014, An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control. in PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems. PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems, SciTePress, pp. 20-30, International Conference on Physiological Computing Systems, PhyCS 2014, Lisbon, Portugal, 7/01/14. https://doi.org/10.5220/0004725600200030

An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control. / Kuo, Chih En; Liang, Sheng Fu; Li, Yi Chieh et al.
PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems. SciTePress, 2014. p. 20-30 (PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Li, Yi Chieh

AU - Cherng, Fu Yin

AU - Lin, Wen-Chieh

AU - Chen, Peng Yu

AU - Liu, Yen Chen

AU - Shaw, Fu Zen

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N2 - Human beings spend approximately one third of their lives sleeping. Conventionally, to evaluate a subjects sleep quality, all-night polysomnogram (PSG) readings are taken and scored by a well-trained expert. The development of an automatic sleep-staging system that does not rely upon mounting a bulky PSG or EEG recorder on the head will enable physiological computing systems (PhyCS) to progress toward easy sleep and comfortable monitoring. In this paper, an electrooculogram (EOG)-based sleep scoring system is proposed. Compared to PSG or EEG recordings, EOG has the advantage of easy placement, and can be operated by the user individually. The proposed method was found to be more than 83% accurate when compared with the manual scorings applied to sixteen subjects. In addition to sleep-quality evaluation, the proposed system encompasses adaptive brightness control of light according to online monitoring of the users sleep stages. The experiments show that the EOG-based sleep scoring system is a practicable solution for home-use sleep monitoring due to the advantages of comfortable recording and accurate sleep staging.

AB - Human beings spend approximately one third of their lives sleeping. Conventionally, to evaluate a subjects sleep quality, all-night polysomnogram (PSG) readings are taken and scored by a well-trained expert. The development of an automatic sleep-staging system that does not rely upon mounting a bulky PSG or EEG recorder on the head will enable physiological computing systems (PhyCS) to progress toward easy sleep and comfortable monitoring. In this paper, an electrooculogram (EOG)-based sleep scoring system is proposed. Compared to PSG or EEG recordings, EOG has the advantage of easy placement, and can be operated by the user individually. The proposed method was found to be more than 83% accurate when compared with the manual scorings applied to sixteen subjects. In addition to sleep-quality evaluation, the proposed system encompasses adaptive brightness control of light according to online monitoring of the users sleep stages. The experiments show that the EOG-based sleep scoring system is a practicable solution for home-use sleep monitoring due to the advantages of comfortable recording and accurate sleep staging.

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KW - Electrooculogram (EOG)

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KW - Sleep

KW - Sleep quality

KW - Sleep stage

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BT - PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems

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ER -

Kuo CE, Liang SF, Li YC, Cherng FY, Lin W-C, Chen PY et al. An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control. In PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems. SciTePress. 2014. p. 20-30. (PhyCS 2014 - Proceedings of the International Conference on Physiological Computing Systems). doi: 10.5220/0004725600200030

An EOG-based sleep monitoring system and its application on on-line sleep-stage sensitive light control

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Keywords

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