Title :
Brain electrical activity in epilepsy: characterization of the spatio-temporal dynamics with cellular neural networks based on a correlation dimension analysis
Author :
Kunz, R. ; Tetzlaff, R. ; Wolf, D.
Author_Institution :
Inst. fur Angewandte Phys., Frankfurt Univ., Germany
Abstract :
We present a new approach for the analysis of the spatio-temporal dynamics of brain electrical activity in epilepsy with cellular neural networks (CNN). We have shown in recent investigations [1999] that the dimension D2*(k, m) of brain electrical activity can be approximated by a function of CNN cell outputs. These results obtained with CNN, having non- steady-states, were sensitive to parameter deviations occurring in CNN hardware realizations. In this contribution we present an enhanced approximation method, which is based on a steady state determination showing an increased robustness and higher accuracy
Keywords :
bioelectric potentials; brain models; cellular neural nets; diseases; electroencephalography; brain electrical activity; cell outputs; cellular neural networks; enhanced approximation method; epilepsy; hardware realizations; parameter deviations; robustness; spatio-temporal dynamics; steady state determination; Boundary conditions; Brain; Cellular neural networks; Electric variables measurement; Electrodes; Epilepsy; Hardware; Piecewise linear approximation; Steady-state; Time measurement;
Conference_Titel :
Circuits and Systems, 2000. Proceedings. ISCAS 2000 Geneva. The 2000 IEEE International Symposium on
Conference_Location :
Geneva
Print_ISBN :
0-7803-5482-6
DOI :
10.1109/ISCAS.2000.856343
