Extended memory loading capacity of a neutral network model with delayed time interaction

Abstract

We study a neural network model where a delayed time interaction is introduced in the Hopfield dynamics. In a numerical simulation, it is indicated that while the system no longer shows a first-order transition, the overlaps between the fixed point configuration of the neurons and the patterns to be memorised are considerably increased. Defining (arbitrarily) a minimal cutoff final overlap at 0.9, the loading capacity is shown to increase from about 14% in the Hopfield model, to about 25%. The relaxation behaviour also changes accordingly.