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“…In an electrical equivalent circuit of a cell of SICNNs, the synaptic conductance of each inhibitory channel is proportional to the firing rate of the cell controlling it, and the shunting conductance of the cell is the sum of the synaptic conductances of individual inhibitory channels [7]. Since both continuous and discontinuous external inputs are utilized, one may design an electrical equivalent circuit of the network (2.2) by properly coupling appropriate pulse generating circuits [40,41] with the one mentioned in [7].…”
Section: The Modelmentioning
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“…In an electrical equivalent circuit of a cell of SICNNs, the synaptic conductance of each inhibitory channel is proportional to the firing rate of the cell controlling it, and the shunting conductance of the cell is the sum of the synaptic conductances of individual inhibitory channels [7]. Since both continuous and discontinuous external inputs are utilized, one may design an electrical equivalent circuit of the network (2.2) by properly coupling appropriate pulse generating circuits [40,41] with the one mentioned in [7].…”
Section: The Modelmentioning