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Bibliography

1
A. L. Goldberger and E. Goldberger,
Clinical Electrocardiography,
Mosby, St. Louis, 1977.

2
J. Pan and W. J. Tompkins,
``A real-time QRS detection algorithm,''
IEEE Trans. Biomed. Eng., vol. 32, no. 3, pp. 220-236, 1985.

3
D. T. Kaplan,
``Simultaneous QRS detection and feature extraction using simple matched filter basis functions,''
in Computers in Cardiology. 1991, pp. 503-506, IEEE Computer Society Press.

4
P. Davey,
``A new physiological method for heart rate correction of the QT interval,''
Heart, vol. 82, pp. 183-186, 1999.

5
G. B. Moody, R. G. Mark, A. Zoccola, and S. Mantero,
``Derivation of respiratory signals from multi-lead ecgs,''
Computers in Cardiology, vol. 12, pp. 113-116, 1985.

6
G. B. Moody, R. G. Mark, M. A. Bump, J. S. Weinstein, A. D. Berman, J. E. Mietus, and A. L. Goldberger,
``Clinical validation of the ecg-derived respiration (edr) technique,''
Computers in Cardiology, vol. 13, pp. 507-510, 1986.

7
M. Malik and A. J. Camm,
Heart Rate Variability,
Futura Publishing, Armonk, NY, 1995.

8
A. L. Goldberger, L. A. N. Amaral, L. Glass, J. M. Hausdorff, P. Ch. Ivanov, R. G. Mark, J. E. Mietus, G. B. Moody, C. K. Peng, and H. E. Stanley,
``Physiobank, physiotoolkit, and physionet: Components of a new research resource for complex physiologic signals,''
Circulations, vol. 101, no. 23, pp. e215-e220, 2000.

9
P. J. Schwartz and Wolf S.,
``Q-T interval as predictor of sudden death in patients with myocardial infarction,''
Circulation, vol. 57, pp. 1074-1077, 1978.

10
Task Force of the European Society of Cardiology, the North American Society of Pacing, and Electrophysiology,
``Heart rate variability: standards of measurement, physiological interpretation, and clinical use,'' 1996.

11
M. H. Crawford, S. Bernstein, and P Deedwania,
``ACC/AHA guidelines for ambulatory electrocardiography,''
Circulation, vol. 100, pp. 886-893, 1999.

12
S. Hales,
Statical Essays II, Haemastaticks,
Innings and Manby, London, 1733.

13
C. Ludwig,
``Beiträge zur Kenntnis des Einflusses der Respirationsbewegung auf den Blutlauf im Aortensystem,''
Arch. Anat. Physiol., vol. 13, pp. 242-302, 1847.

14
R. W. De Boer, J. M. Karemaker, and J. Strackee,
``Hemodynamic fluctuations and baroreflex sensitivity in humans: a beat-to-beat model,''
Am. J. Physiol., vol. 253, pp. 680-689, 1987.

15
W. H. Press, B. P. Flannery, S. A. Teukolsky, and W. T. Vetterling,
Numerical Recipes in C,
CUP, Cambridge, 2nd edition, 1992.

16
P. Laguna, G. B. Moody, and Mark R. G.,
``Power spectral density of unevenly sampled data by least-square analysis: performance and application to heart rate signals,''
IEEE Trans. Biomed. Eng, vol. BME-45, pp. 698-715, 1998.

17
P. E. McSharry and L. A. Smith,
``Better nonlinear models from noisy data: Attractors with maximum likelihood,''
Phys. Rev. Lett., vol. 83, no. 21, pp. 4285-4288, 1999.

\begin{biography}{Patrick E. McSharry} was born in Leitrim, Ireland in 1972.
H...
...cal modelling,
forecasting and biomedical signal processing.
\end{biography}

\begin{biography}{Gari D. Clifford}
was born in Alton, Hampshire, UK in 1971.
...
...sis, biomedical signal processing
and mathematical modelling.
\end{biography}

\begin{biography}{Lionel Tarassenko} MA, DPhil, FREng, FIEE was born in
Paris ...
...d
to a Fellowship of the Royal Academy of Engineering in 2000.
\end{biography}

\begin{biography}{Leonard A. Smith} received a BS in Physics,
Mathematics and ...
... the definition of noise; and nonlinear time series
analysis.
\end{biography}


2003-10-08