Željko Djurović scite author profile

We present a new technique for detection of epileptiform activity in EEG signals. After preprocessing of EEG signals we extract representative features in time, frequency and time-frequency domain as well as using non-linear analysis. The features are extracted in a few frequency sub-bands of clinical interest since these sub-bands showed much better discriminatory characteristics compared with the whole frequency band. Then we optimally reduce the dimension of feature space to two using scatter matrices. A decision about the presence of epileptiform activity in EEG signals is made by quadratic classifiers designed in the reduced two-dimensional feature space. The accuracy of the technique was tested on three sets of electroencephalographic (EEG) signals recorded at the University Hospital Bonn: surface EEG signals from healthy volunteers, intracranial EEG signals from the epilepsy patients during the seizure free interval from within the seizure focus and intracranial EEG signals of epileptic seizures also from within the seizure focus. An overall detection accuracy of 98.7% was achieved.

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Classification of Eeg Signals for Detection of Epileptic Seizures Based on Wavelets and Statistical Pattern Recognition

Gajić

Djurović

Gennaro

et al. 2014

Biomed. Eng. Appl. Basis Commun.

105

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Abstract:The electroencephalogram (EEG) signal is very important in the diagnosis of epilepsy.Long-term EEG recordings of an epileptic patient contain a huge amount of EEG data. The detection of epileptic activity is, therefore, a very demanding process that requires a detailed analysis of the entire length of the EEG data, usually performed by an expert. This paper describes an automated classification of EEG signals for the detection of epileptic seizures using wavelet transform and statistical pattern recognition. The decision making process is comprised of three main stages: (a) feature extraction based on wavelet transform, (b) feature space dimension reduction using scatter matrices, and (c) classification by quadratic classifiers. The proposed methodology was applied on EEG data sets that belong to three subject groups: a) healthy subjects, b) epileptic subjects during a seizure-free interval, and c) epileptic subjects during a seizure. An overall classification accuracy of 99% was achieved. The results confirmed that the proposed algorithm has a potential in the classification of EEG signals and detection of epileptic seizures, and could thus further improve the diagnosis of epilepsy.

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Consensus based overlapping decentralized fault detection and isolation

Stanković

Ilić

Djurović

et al. 2010

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Adaptive Doppler–Kalman filter for radar systems

Papić

Djurović

Kovačevíc

2006

IEE Proc., Vis. Image Process.

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Target tracking with two passive infrared non-imaging sensors

Djurović

Kovačevíc

Dikić³

2009

IET Signal Process.

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