Spike-Timing-Dependent Hebbian Plasticity as Temporal Difference Learning

Rajesh P. N. Rao, Terrence J. Sejnowski
2001 Neural Computation  
A spike-timing-dependent Hebbian mechanism governs the plasticity of recurrent excitatory synapses in the neocortex: synapses that are activated a few milliseconds before a postsynaptic spike are potentiated, while those that are activated a few milliseconds after are depressed. We show that such a mechanism can implement a form of temporal difference learning for prediction of input sequences. Using a biophysical model of a cortical neuron, we show that a temporal difference rule used in
more » ... ction with dendritic backpropagating action potentials reproduces the temporally asymmetric window of Hebbian plasticity observed physiologically. Furthermore, the size and shape of the window vary with the distance of the synapse from the soma. Using a simple example, we show how a spike-timing-based temporal difference learning rule can allow a network of neocortical neurons to predict an input a few milliseconds before the input's expected arrival.
doi:10.1162/089976601750541787 pmid:11570997 fatcat:fvhfvzzd65guzmfxxg7tuyrwsi