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IJCNN
2000
IEEE
2000
IEEE
Analysis of Fluctuation-Induced Firing in the Presence of Inhibition
This paper examines the computational role of inhibition as it moves towards balancing concurrent excitation using the biologically-inspired Temporal Noisy-Leaky Integrator (TNLI) neuron model. The TNLI incorporates hyperpolarising inhibition with negative current pulses of controlled shapes and it also separates dendritic from somatic integration. The function of inhibition is investigated by examining its effect on the transfer function of the neuron and on the membrane potential. Increasing inhibition leads to greater membrane potential fluctuations as well as greater amplitude variations for a given level of mean input current. This added variance leads to decreasing the slope of the neuron's transfer function (mean input current vs mean output frequency), effectively reducing the gain of the input/output sigmoid; inhibition can therefore be used as a means of controlling the gain of the transfer function. Moreover, we demonstrate that in the case of balanced excitation and in...
Real-time Traffic| Added | 31 Jul 2010 |
| Updated | 31 Jul 2010 |
| Type | Conference |
| Year | 2000 |
| Where | IJCNN |
| Authors | Chris Christodoulou, Trevor G. Clarkson, John G. Taylor, Guido Bugmann |
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