Saeid Sanei

EEG Signal Processing and Machine Learning


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It is based on a Bayesian GMM applied at each location of a time–frequency map of the EEGs.

      These models describe the cell as an independent unit. The well established models such as the Hodgkin–Huxley model have been implemented using electronic circuits. Although, for accurate models large numbers of components are required, in practise it has been shown that a good approximation of such models can be achieved using simple circuits [56].

      3.5.1 Models Describing the Function of the Membrane

      Most of the models describing the excitation mechanism of the membrane are electronic realizations of the theoretical membrane model of Hodgkin and Huxley. In the following sections, two of these realizations are discussed.

Schematic illustration of the Lewis membrane model.

      3.5.1.1 Lewis Membrane Model

      3.5.1.2 Roy Membrane Model

      In the Roy model the conductance is controlled by a circuit including an operational amplifier, capacitors, and resistors. This circuit is designed to make the conductance behave according to the Hodgkin–Huxley model. Roy's main goal was to achieve a very simple model rather than to simulate accurately the Hodgkin–Huxley model.

      3.5.2 Models Describing the Function of a Neuron

      3.5.2.1 Lewis Neuron Model

Schematic illustration of circuits simulating (a) potassium and (b) sodium conductances in the Roy membrane model. Schematic illustration of the Lewis neuron model from 1968.

      The section representing the synaptic junction is divided into two components: the inhibitory junction and the excitatory junction. The sensitivity of the section generating the action pulse to a stimulus introduced at the excitatory synaptic junction is reduced by the voltage introduced at the inhibitory junction. The section generating the action pulse is based on the Hodgkin–Huxley model which consists of the normal circuits simulating the sodium and potassium conductances, the leakage conductance, and the membrane capacitance. The circuit also includes an amplifier for the output signal. This model may be used in research on neural networks. However, it is actually a simplified version of Lewis's 46‐transistor network having the same form. The purpose of this simplified Lewis model is to simulate the form of the action pulse with moderate accuracy following simple models.

      3.5.2.2 The Harmon Neuron Model

Schematic illustration of the Harmon neuron model. Schematic illustration of the Lewis model for simulation of the propagation of the action pulse.

      3.5.3 A Model Describing the Propagation of the Action Pulse in an Axon

      3.5.4 Integrated Circuit Realizations

      Mahowald et al. [61] used electronic neuron models