İnan Güler scite author profile

In this paper, we proposed the multiclass support vector machine (SVM) with the error-correcting output codes for the multiclass electroencephalogram (EEG) signals classification problem. The probabilistic neural network (PNN) and multilayer perceptron neural network were also tested and benchmarked for their performance on the classification of the EEG signals. Decision making was performed in two stages: feature extraction by computing the wavelet coefficients and the Lyapunov exponents and classification using the classifiers trained on the extracted features. The purpose was to determine an optimum classification scheme for this problem and also to infer clues about the extracted features. Our research demonstrated that the wavelet coefficients and the Lyapunov exponents are the features which well represent the EEG signals and the multiclass SVM and PNN trained on these features achieved high classification accuracies.

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ECG beat classifier designed by combined neural network model

Güler

Übeylı

2005

Pattern Recognition

168

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Segmentation of Tumor and Edema Along With Healthy Tissues of Brain Using Wavelets and Neural Networks

Demi̇rhan

Toru

Güler

2015

IEEE J. Biomed. Health Inform.

186

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Robust brain magnetic resonance (MR) segmentation algorithms are critical to analyze tissues and diagnose tumor and edema in a quantitative way. In this study, we present a new tissue segmentation algorithm that segments brain MR images into tumor, edema, white matter (WM), gray matter (GM), and cerebrospinal fluid (CSF). The detection of the healthy tissues is performed simultaneously with the diseased tissues because examining the change caused by the spread of tumor and edema on healthy tissues is very important for treatment planning. We used T1, T2, and FLAIR MR images of 20 subjects suffering from glial tumor. We developed an algorithm for stripping the skull before the segmentation process. The segmentation is performed using self-organizing map (SOM) that is trained with unsupervised learning algorithm and fine-tuned with learning vector quantization (LVQ). Unlike other studies, we developed an algorithm for clustering the SOM instead of using an additional network. Input feature vector is constructed with the features obtained from stationary wavelet transform (SWT) coefficients. The results showed that average dice similarity indexes are 91% for WM, 87% for GM, 96% for CSF, 61% for tumor, and 77% for edema.

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İnan Güler

Adaptive neuro-fuzzy inference system for classification of EEG signals using wavelet coefficients

Recurrent neural networks employing Lyapunov exponents for EEG signals classification

Multiclass Support Vector Machines for EEG-Signals Classification

ECG beat classifier designed by combined neural network model

Segmentation of Tumor and Edema Along With Healthy Tissues of Brain Using Wavelets and Neural Networks

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