Title :
Inclusion of ECG and EEG analysis in neural network models
Author :
Cohen, Maurice E. ; Hudson, Donna L.
Author_Institution :
California State Univ., Fresno, CA, USA
Abstract :
Evaluation of biomedical signals is important in the diagnosis of numerous diseases, chiefly in cardiology through the use of electrocardiograms, and to a more limited extent, in neurology through the use of electroencephalograms. While automated techniques exist for both ECG and EEG analysis, it is likely that additional information can be extracted from these signals through the use of new methods. A chaotic method for analysis of signal analysis variability is presented here that identifies the degree of variability in the signal over time. A second focus is to develop higher order decision models that can incorporate these results with other clinical parameters to represent a more comprehensive view of the disease state, using a neural network model.
Keywords :
chaos; electrocardiography; electroencephalography; learning (artificial intelligence); medical signal processing; neural nets; signal classification; time series; Cohen orthogonal functions; ECG analysis; EEG analysis; Hypernet; biomedical signals; central tendency measure; chaotic method; degree of variability; disease state; higher order decision models; multiple chaotic parameters; neural network model; potential function approach; second order difference plot; signal analysis variability; supervised learning; Biological neural networks; Brain modeling; Cardiac disease; Cardiology; Cardiovascular diseases; Electrocardiography; Electroencephalography; Nervous system; Neural networks; Signal analysis;
Conference_Titel :
Engineering in Medicine and Biology Society, 2001. Proceedings of the 23rd Annual International Conference of the IEEE
Print_ISBN :
0-7803-7211-5
DOI :
10.1109/IEMBS.2001.1020524
