A network of four excitable cells with the Belousov-Zhabotinsky (BZ) reaction is considered both theoretically and experimentally. All cells are coupled by pulses with time delays between the moment of a spike in cell # and the moment of the corresponding perturbation of an addressee (cell #). The coupling strengths of all connections except the coupling strength between cells #1 and #2 are constant. Cell #1 is periodically perturbed (with period ) and sends pulses to cell #2. The value of is controlled by pulses from two other cells (with indexes #5 and #6; cells with indexes #3 and #4 are absent in the considered network), provided the pulses from cell #5 increase , while the pulses from cell #6 decrease . Cells #5 and #6 are mutually coupled by inhibitory pulses. Depending on the relations between the values of , there are three dynamic modes in the network: (i) the coupling strength increases stepwise, which is the "Hebb mode", (ii) the decreases stepwise, which is the "anti-Hebb mode", and (iii) the remains almost unchanged within some small adjustable range, which is the meander mode. The ability to tune the "Hebb" and "anti-Hebb" modes introduces memory in the chemical network and, consequently, a mechanism of learning can be realized. The theoretical network is implemented experimentally using four microcells with the BZ reaction provided the pulse coupling between microcells is realized using optical links.
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