Biomedical Engineering Reference
In-Depth Information
7.
Cantineau, J.P., Escourrou, P., Sartene, R., Gaultier, C., Goldman, M.: Accuracy of respi-
ratory inductive plethysmography during wakefulness and sleep in patients with obstruc-
tive sleep apnea. Chest 102(4), 1145-1151 (1992)
8.
Cartwright, R.D.: Effect of sleep position on sleep apnea severit. Sleep 7(2), 110-114 (1984)
9.
Douglas, N., Thomas, S., Jan, M.: Clinical value of polysomnography. Lancet 339, 347-350
(1992)
10.
Erina, K., Yousuke, K., Kajiro, W.: Sleep stage estimation by non-invasive bio-
measurement. In: SICE-ICASE International Joint Conference, pp. 1494-1499 (2006)
11.
Fitbit,
http://www.fitbit.com/
(retrieved on May 2011)
12.
Hoque, E., Dickerson, R.F., Stankovic, J.A.: Monitoring body positions and movements
during sleep using WISPs. Wireless Health, 44-53 (2010)
13.
Idzikowski, C.: Sleep position gives personality clue. BBC News (September 16, 2003)
14.
Kushida, C.A., Chang, A., Gadkary, C., Guilleminault, C., Carrillo, O., Dement, W.C.:
Comparison of actigraphic, polysomnographic, and subjective assessment of sleep parame-
ters in sleep-disordered patients. Sleep Med. 2(5), 389-396 (2001)
15.
Kinect,
http://www.xbox.com/kinect
(retrieved on March 2011)
16.
Loord, H., Hultcrantz, E.: Positioner - a method for preventing sleep apnea. Acta Oto-
laryngologica 127(8), 861-868 (2007)
17.
Maquet, P.: The role of sleep in learning and memory. Science 294, 1048-1052 (2001)
18.
Malakuti, K., Albu, A.B.: Towards an intelligent bed sensor: Non-intrusive monitoring of
sleep irregularities with computer vision techniques. In: International Conference on Pat-
tern Recognition, pp. 4004-4007 (2010)
19.
Nakajima, K., Matsumoto, Y., Tamura, T.: Development of real-time image sequence
analysis for evaluating posture change and respiratory rate of a subject in bed. Physiologi-
cal Measurement 22, N21-N28 (2001)
20.
Philips Actiwatch,
http://www.healthcare.philips.com/
(retrieved on Au-
gust 2010)
21.
PneumaCare,
http://www.pneumacare.com/
(retrieved on June 2011)
22.
Wareham, R., Lasenby, J., Cameron, J., Bridge, P.D., Iles, R.: Structured light plethysmo-
graphy (SLP) compared to spirometry: a pilot study. In: European Respiratory Society An-
nual Congress, Vienna (2009)
23.
Sadeh, A., Sharkey, K.M., Carskadon, M.A.: Activity-based sleep-wake identification: an
empirical test of methodological issues. Sleep 17(3), 201-207 (1994)
24.
Staderini, E.M.: UWB radars in medicine. Aerospace and Electronic Systems Maga-
zine 17(1), 13-18 (2002)
25.
Spiegel, K., Leproult, R., Cauter, D.V.: Impact of sleep debt on metabolic and endocrine
function. The LANCET 354(9188), 1435-1439 (1999)
26.
Szollosi, I., Roebuck, T., Thompson, B., Naughton, M.T.: Lateral sleeping position reduces
severity of central sleep apnea/cheyne-stokes respiration. Sleep 29(8), 1045-1051 (2002)
27.
Harada, T., Sakata, A., Mori, T., Sato, T.: Sensor pillow system: monitoring respiration
and body movement in sleep. In: Intelligent Robots and Systems, IROS 2000, vol. 1, pp.
351-356 (2000)
28.
Thought Technology Ltd.,
http://www.thoughttechnology.com/
(retrieved on
June 2010)
29.
Whyte, K.F., Gugger, M., Gould, G.A., Molloy, J., Wraith, P.K., Douglas, N.J.: Accuracy
of respiratory inductive plethysmograph in measuring tidal volume during sleep. Journal of
Applied Physiology 71(5), 1866-1871 (1991)
30.
WakeMate,
http://www.wakemate.com/
(retrieved on May 2011)
31.
Ziganshin, E.G., Numerov, M.A., Vygolov, S.A.: UWB baby monitor. Ultra-wideband and
Ultrashort Impulse Signals, 159-161 (2010)
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