Yazdan Shirvany scite author profile

One of the most important steps of pre-surgical diagnosis in patients with medically intractable epilepsy is to find the precise location of the epileptogenic foci. An Electroencephalography (EEG) is a non-invasive standard tool used at epilepsy surgery center for pre-surgical diagnosis. In this paper a modified particle swarm optimization (MPSO) method is applied to a real EEG data, i.e., a somatosensory evoked potentials (SEPs) measured from a healthy subject, to solve the EEG source localization problem. A high resolution 1 mm hexahedra finite element volume conductor model of the subject's head was generated using T1-weighted magnetic resonance imaging data. An exhaustive search pattern and the MPSO method were then applied to the peak of the averaged SEPs data. The non-invasive EEG source analysis methods localized the somatosensory cortex area where our clinical expert expected the received SEPs. The proposed inverse problem solver found the global minima with acceptable accuracy and reasonable number of iterations.

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Application of particle swarm optimization in epileptic spike EEG source localization

Shirvany

Edelvik

Jakobsson

et al. 2013

Applied Soft Computing

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Numerical solution of the nonlinear Schrodinger equation by feedforward neural networks

Shirvany¹,

Hayati²,

Moradian³

2008

Communications in Nonlinear Science and Numerical Simulation

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Particle Swarm Optimization Applied to EEG Source Localization of Somatosensory Evoked Potentials

Shirvany

Mahmood

Edelvik

et al. 2014

IEEE Trans. Neural Syst. Rehabil. Eng.

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One of the most important steps in presurgical diagnosis of medically intractable epilepsy is to find the precise location of the epileptogenic foci. Electroencephalography (EEG) is a noninvasive tool commonly used at epilepsy surgery centers for presurgical diagnosis. In this paper, a modified particle swarm optimization (MPSO) method is used to solve the EEG source localization problem. The method is applied to noninvasive EEG recording of somatosensory evoked potentials (SEPs) for a healthy subject. A 1 mm hexahedra finite element volume conductor model of the subject's head was generated using T1-weighted magnetic resonance imaging data. Special consideration was made to accurately model the skull and cerebrospinal fluid. An exhaustive search pattern and the MPSO method were then applied to the peak of the averaged SEP data and both identified the same region of the somatosensory cortex as the location of the SEP source. A clinical expert independently identified the expected source location, further corroborating the source analysis methods. The MPSO converged to the global minima with significantly lower computational complexity compared to the exhaustive search method that required almost 3700 times more evaluations.

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Yazdan Shirvany

Multilayer perceptron neural networks with novel unsupervised training method for numerical solution of the partial differential equations

Non-invasive EEG source localization using particle swarm optimization: A clinical experiment

Application of particle swarm optimization in epileptic spike EEG source localization

Numerical solution of the nonlinear Schrodinger equation by feedforward neural networks

Particle Swarm Optimization Applied to EEG Source Localization of Somatosensory Evoked Potentials

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