PMC:2940453 / 19842-20858
Annnotations
{"target":"https://pubannotation.org/docs/sourcedb/PMC/sourceid/2940453","sourcedb":"PMC","sourceid":"2940453","source_url":"https://www.ncbi.nlm.nih.gov/pmc/2940453","text":"Transferring the phase code (from Figure 3) between structures. The upper left is the phase-encoded AP pattern from Figure 3C. In this code AP time represents the luminance of the image in the receptive field and the position of neuron represents geometry. When the phase code enters a structure that relays the information (middle), the divergent and convergent connections will cause the APs to be dispersed and projected on a set of output neurons. As a result of the dispersion, all of the APs from each connected neurons will be combined with all other APs. The output AP trains will represent the combined APs from all the neurons. On the one hand, this code is compressed at the cellular level because it contains all the APs from all the neurons. On the other hand, the code is redundant across neurons. Underneath, middle row is the potential correspondence with the retina, LGN, and V1. Bottom, potential correspondence of the compression and transfer scheme with the cortico-cortical information transfer.","tracks":[]}