Akademik Veri Yönetim Sistemi
II. Uluslararası Bilimsel ve Mesleki Çalışmalar Kongresi, Nevşehir, Türkiye, 5 - 08 Temmuz 2018, ss.745-746
Epilepsy is characterized by temporary and unexpected electrical deterioration in brain.
Electroencephalography (EEG) is widely used in diagnosis of epilepsy. There are many studies in the
literature to show the differences of epileptic EEG from normal EEG. However, before seizure, studies
on the prediction of epilepsy are very limited. In this study, EEG signals were analyzed using the
Variational Mode Decomposition Method (VMD) and it was aimed to determine the early phase of
epilepsy before the epileptic seizure. VMD has recently been proposed as an alternative to the
Empirical Mode Decomposition method (EMD). The VMD method can precisely separate
narrowband signals in frequency domain and can successfully apply many fields. In this study, VMD
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method was used in the analysis of EEG signals for detection of epilepsy before seizure, unlike
literature studies. In this proposed study, EEG signals were separated into 3 sub-bands using VMD
method. Statistical properties such as mean, variance and entropy of each subbands were analyzed. Six
epileptic EEG signals were examined in three parts: pre-seizure, post-seizure and post-seizure. Each
signal was subdivided by the VMD method. It is seemed that, in normal EEG signals, the variance and
entropy values of the first and second VMD subband signals were different from each other. That is,
one of the subbands has a higher variance while the other has a lower variance. However, a few
minutes before epilepsy and at the time of epilepsy, the situation was reversed. The variance of the
subband which was low in the previous case was significantly higher than the variance of the other
subband. In other words, before the epileptic seizure, statistical properties such as variance and
entropy of VMD subband signals were significantly changed. Based on these findings, it may be
possible to diagnose the epilepsy state before the seizures by analyzing the time-varying entropy and
variance values of the VMD subbands of the EEG signals. In this study, a pioneering approach has
been established in which epilepsy patients can acquire knowledge that they will have a seizure before
seizure.