Hi Chao,
In real neurons, the refractory period arises from a combination of biophysical mechanisms. After firing an action potential, the cell needs to recover before it can fire another one. In simplified
neuron models, such as most integrate-and-fire models, which do not include these recovery mechanisms, one usually adds an explicit refractory period to capture the effect of the biophysical recovery mechanisms in a mathematically or computationally simple
way.
But if a neuron model includes (slow) recovery variables that will prevent it from spiking for some period after firing a spike, adding an explicit refractory period may not be required. Izhikevich
decided that this was the case for his model, and thus there is no explicit refractory period that could be set as a parameter. The neuron model has its refractoriness simply "built in", with details depending on the parameters.
Best regards,
Hans Ekkehard
--
Prof. Dr. Hans Ekkehard Plesser
Head, Department of Data Science
Faculty of Science and Technology
Norwegian University of Life Sciences
PO Box 5003, 1432 Aas, Norway
Phone +47 6723 1560
Email hans.ekkehard.plesser@nmbu.no
Home http://arken.nmbu.no/~plesser
On 10/06/2022, 09:31, "jcye" <jc.ye@foxmail.com> wrote:
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Dear NEST Community,
When I use NEST, I find that Izhikevich model has no refractory period. Whether there is a specific reason for this setting or whether the
model itself does not have this refractory period? After all, according to my understanding, all neurons in biology have the characteristics of refractory period.
I would be happy to get any feedback on it.
Thanks,
Chao.