Neurons Modeling and Electrical Equivalent Circuits. Nuclear Materials Authority

      Аннотация: Applying electronics and computer simulations are of great role in understanding the electric behavior of tissue, methods to illustrate it. As well, are strongly related to the concepts of electronic circuits and to the equations describing their behavior. Finally, it could be concluded that from this point of view, it is very easy to proceed to realize physically the electronic equivalent circuits for the excitable tissues.

Ключевые слова: Biological life, Cell, biomolecules, Cell membrane, electrically charged ions, Membrane, Mechanisms, neurons, metabolic, saline, crucial element, phospholipids bilayer, hydrocarbon, phospholipid bilayers, transport charges, Specific Capacitance, dielectric constant, Lipid, meta-bolic energy, sodium ions, thermodynamic, equilibrium, Boltzmann distribution, biochemical complexities, statistical equilibrium, trans membrane, channel pore, nernst equation, cmembrane capacitance, reversal potentials, communication, electrical synapses, Homogeneous, neuro-tronic, neural electronics, neural-inspired concepts, brain-inspired algorithms, neural network computational models, artificial neural networks, brain-inspired concepts implements, Microprocessors, Robots, and medical systems.