Indexed keywords
BIOMECHANICS;
BRAIN;
CHARACTERIZATION;
INTEGRAL EQUATIONS;
NEUROLOGY;
REAL TIME SYSTEMS;
SIGNAL PROCESSING;
BRAIN INJURY DETECTION;
HYPOXIC INJURY;
REAL TIME BRAIN MONITORING SYSTEMS;
ELECTROENCEPHALOGRAPHY;
ANIMAL EXPERIMENT;
ARTICLE;
BRAIN HYPOXIA;
BRAIN INJURY;
DIAGNOSTIC VALUE;
ELECTROENCEPHALOGRAM;
NONHUMAN;
QUANTITATIVE ASSAY;
SIGNAL DETECTION;
SWINE;
ANIMALS;
ELECTROENCEPHALOGRAPHY;
ISCHEMIC ATTACK, TRANSIENT;
LINEAR MODELS;
MODELS, NEUROLOGICAL;
MONITORING, PHYSIOLOGIC;
SIGNAL PROCESSING, COMPUTER-ASSISTED;
SWINE;
1
0019559758
69, pp. 451-461, 1981.
A. Isaksson, A. Wennberg, and L. Zetterberg, "Computer analysis of EEG signals with parametric models," P roc. IEEE, vol. 69, pp. 451-461, 1981.
A. Wennberg, and L. Zetterberg, "Computer Analysis of EEG Signals with Parametric Models," P Roc. IEEE, Vol.
Isaksson, A.1
2
0017490015
65, pp. 642-652, 1977.
G. Bodenstein and H. Praetorius, "Feature extraction from electroencephalogram by adaptive segmentation," Proc. IEEE, vol. 65, pp. 642-652, 1977.
And H. Praetorius, "Feature Extraction from Electroencephalogram by Adaptive Segmentation," Proc. IEEE, Vol.
Bodenstein, G.1
3
0029914191
43, pp. 1083-1092, 1996.
V. Goel, A. Brambrink, A. Baykal, D. Hanley, and N.V. Thakor, "Dominant frequency analysis of EEG reveals brain's response during injury and recovery," IEEE Trans. Biomed. Eng., vol. 43, pp. 1083-1092, 1996.
A. Brambrink, A. Baykal, D. Hanley, and N.V. Thakor, "Dominant Frequency Analysis of EEG Reveals Brain's Response during Injury and Recovery," IEEE Trans. Biomed. Eng., Vol.
Goel, V.1
4
33749744198
1976, pp. 180-199.
F. Lopes da Silva, A. Djik, and H. Smits, "Detection of nonstationarities in EEC's using the autoregressive model-An application to EEC's of epileptics," in CEAN: Computerised EEG Analysis, D. Dolce and H. Kunkel, Ed. Kronberg/Taunus, Germany: Gustav Fischer Verlag, 1976, pp. 180-199.
Da Silva, A. Djik, and H. Smits, "Detection of Nonstationarities in EEC's Using the Autoregressive Model-An Application to EEC's of Epileptics," in CEAN: Computerised EEG Analysis, D. Dolce and H. Kunkel, Ed. Kronberg/Taunus, Germany: Gustav Fischer Verlag
Lopes, F.1
5
0019306627
53, pp. 223-236, 1980.
W. Levy, H. Shapiro, G. Maruchek, and E. Meathe, "Automated EEG processing for intraoperative monitoring," Anesthesiol, vol. 53, pp. 223-236, 1980.
H. Shapiro, G. Maruchek, and E. Meathe, "Automated EEG Processing for Intraoperative Monitoring," Anesthesiol, Vol.
Levy, W.1
6
33749805718
12, pp. 146-163, 1987.
R.W. McPherson, "Intraoperative monitoring of evoked potentials," Prog. Neuro. Surg., vol. 12, pp. 146-163, 1987.
"Intraoperative Monitoring of Evoked Potentials," Prog. Neuro. Surg., Vol.
McPherson, R.W.1
7
0001543013
5, pp. 227-275, 1969.
L. Zetterberg, "Estimation of parameters for a linear difference equation with application to EEG analysis," Math. Biosci., vol. 5, pp. 227-275, 1969.
"Estimation of Parameters for a Linear Difference Equation with Application to EEG Analysis," Math. Biosci., Vol.
Zetterberg, L.1
8
0003807974
1996.
J. Proakis and D. Manolakis, Digital Signal Processing: Principles, Algorithms, and Applications. Englewood Cliffs, NJ: Prentice-Hall, 1996.
And D. Manolakis, Digital Signal Processing: Principles, Algorithms, and Applications. Englewood Cliffs, NJ: Prentice-Hall
Proakis, J.1
9
33749724678
1998.
X. Kong, "Quantification of injury-related EEG signal changes using distance and information measures," Department of Electrical Engineering, Northern Illinois University, De Kalb, IL, Tech. Rep., 1998.
"Quantification of Injury-related EEG Signal Changes Using Distance and Information Measures," Department of Electrical Engineering, Northern Illinois University, De Kalb, IL, Tech. Rep.
Kong, X.1