Causal probabilistic network and power spectral estimation used for sleep classification

Kim Dremstrup Nielsen; J. M. Andersen; Lotte N. S. Andreasen; T. Dyrby; Winnie Jensen; A. G. Kjær; Steen Andreassen

Causal probabilistic network and power spectral estimation used for sleep classification

Kim Dremstrup Nielsen, J. M. Andersen, Lotte N. S. Andreasen, T. Dyrby, Winnie Jensen, A. G. Kjær, Steen Andreassen

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research

Abstract

A new method for sleep-stage classification using a causal probabilistic network as automatic classifier has been implemented and validated. The system uses features from the primary sleep signals from the brain (EEG) and the eyes (AOG) as input. From the EEG, features are derived containing spectral information which is used to classify power in the classical spectral bands, sleep spindles and K-complexes. From AOG, information on rapid eye movements is derived. Features are extracted every 2 seconds. The CPN-based sleep classifier was implemented using the HUGIN system, an application tool to handle causal probabilistic networks. The results obtained using different training approaches show agreements ranging from 68.7 to 70.7% between the system and the two experts when a pooled agreement is computed over the six subjects. As a comparison, the interrater agreement between the two experts was found to be 71.4%, measured also over the six subjects.

Original language	English
Title of host publication	Proceedings of the 2nd IFMBE-IMIA International Workshop on Biosignal Interpretation, International Federation for Medical and Biomedical Engineering (IFMBE), 1996
Publication date	1996
Pages	211-214
Publication status	Published - 1996

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Nielsen, K. D., Andersen, J. M., Andreasen, L. N. S., Dyrby, T., Jensen, W., Kjær, A. G., & Andreassen, S. (1996). Causal probabilistic network and power spectral estimation used for sleep classification. In Proceedings of the 2nd IFMBE-IMIA International Workshop on Biosignal Interpretation, International Federation for Medical and Biomedical Engineering (IFMBE), 1996 (pp. 211-214)

@inproceedings{7307e020809511db8b97000ea68e967b,

title = "Causal probabilistic network and power spectral estimation used for sleep classification",

abstract = "A new method for sleep-stage classification using a causal probabilistic network as automatic classifier has been implemented and validated. The system uses features from the primary sleep signals from the brain (EEG) and the eyes (AOG) as input. From the EEG, features are derived containing spectral information which is used to classify power in the classical spectral bands, sleep spindles and K-complexes. From AOG, information on rapid eye movements is derived. Features are extracted every 2 seconds. The CPN-based sleep classifier was implemented using the HUGIN system, an application tool to handle causal probabilistic networks. The results obtained using different training approaches show agreements ranging from 68.7 to 70.7% between the system and the two experts when a pooled agreement is computed over the six subjects. As a comparison, the interrater agreement between the two experts was found to be 71.4%, measured also over the six subjects.",

author = "Nielsen, {Kim Dremstrup} and Andersen, {J. M.} and Andreasen, {Lotte N. S.} and T. Dyrby and Winnie Jensen and Kj{\ae}r, {A. G.} and Steen Andreassen",

year = "1996",

language = "English",

pages = "211--214",

booktitle = "Proceedings of the 2nd IFMBE-IMIA International Workshop on Biosignal Interpretation, International Federation for Medical and Biomedical Engineering (IFMBE), 1996",

}

Causal probabilistic network and power spectral estimation used for sleep classification. / Nielsen, Kim Dremstrup; Andersen, J. M.; Andreasen, Lotte N. S. et al.
Proceedings of the 2nd IFMBE-IMIA International Workshop on Biosignal Interpretation, International Federation for Medical and Biomedical Engineering (IFMBE), 1996. 1996. p. 211-214.

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research

TY - GEN

T1 - Causal probabilistic network and power spectral estimation used for sleep classification

AU - Nielsen, Kim Dremstrup

AU - Andersen, J. M.

AU - Andreasen, Lotte N. S.

AU - Dyrby, T.

AU - Jensen, Winnie

AU - Kjær, A. G.

AU - Andreassen, Steen

PY - 1996

Y1 - 1996

N2 - A new method for sleep-stage classification using a causal probabilistic network as automatic classifier has been implemented and validated. The system uses features from the primary sleep signals from the brain (EEG) and the eyes (AOG) as input. From the EEG, features are derived containing spectral information which is used to classify power in the classical spectral bands, sleep spindles and K-complexes. From AOG, information on rapid eye movements is derived. Features are extracted every 2 seconds. The CPN-based sleep classifier was implemented using the HUGIN system, an application tool to handle causal probabilistic networks. The results obtained using different training approaches show agreements ranging from 68.7 to 70.7% between the system and the two experts when a pooled agreement is computed over the six subjects. As a comparison, the interrater agreement between the two experts was found to be 71.4%, measured also over the six subjects.

AB - A new method for sleep-stage classification using a causal probabilistic network as automatic classifier has been implemented and validated. The system uses features from the primary sleep signals from the brain (EEG) and the eyes (AOG) as input. From the EEG, features are derived containing spectral information which is used to classify power in the classical spectral bands, sleep spindles and K-complexes. From AOG, information on rapid eye movements is derived. Features are extracted every 2 seconds. The CPN-based sleep classifier was implemented using the HUGIN system, an application tool to handle causal probabilistic networks. The results obtained using different training approaches show agreements ranging from 68.7 to 70.7% between the system and the two experts when a pooled agreement is computed over the six subjects. As a comparison, the interrater agreement between the two experts was found to be 71.4%, measured also over the six subjects.

M3 - Article in proceeding

SP - 211

EP - 214

BT - Proceedings of the 2nd IFMBE-IMIA International Workshop on Biosignal Interpretation, International Federation for Medical and Biomedical Engineering (IFMBE), 1996

ER -

Causal probabilistic network and power spectral estimation used for sleep classification

Abstract

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