polychronization

Polychronization is a concept in computational neuroscience describing how neural systems can encode information in the precise timing of spikes across neurons, taking advantage of axonal conduction delays to create a large repertoire of distinct temporal patterns. Unlike rate coding, which relies on average firing rates, polychronization relies on time-locked sequences whose relative arrival times at synapses determine subsequent activity. In networks with distributed delays, a single presynaptic spike can contribute to multiple temporally distinct patterns, allowing many codes to coexist.

Polychronous neural networks (PNNs) are a formal framework used to study this phenomenon. They show that with

The approach has potential implications for temporal pattern recognition and sequence memory, where information is embedded