Title :
Thalamic circuitry model based on modified "integrate-and-fire neurons"
Author :
Tikidji-Hamburyan, R.
Author_Institution :
A.B.Kogan Res. Inst. for Neurocybernetics, Rostov State Univ., Rostov-on-Don, Russia
Abstract :
A modified model of "integrate-and-fire neuron" has been developed to imitate cooperative functioning the neuronal networks (NN) of various brain structures. The components to simulate temporal dynamics immediately after-spike generation such as slow after-potentials, and threshold modulations were incorporated into neuron model. As first step, a realistic NN, accumulating knowledge about properties of the thalamic relay nucleus, and consisting of the modified "integrate-and-fire neurons" is created. The results of computer simulation are in agreement with neurobiological data about a dynamics of the thalamic neuronal activity during both waking and slow-wave sleep. Several new properties of activity dynamics were revealed such as a dependence of spatio-temporal parameters of neuron synchronization during the spindle wave on the local interaction architecture in the NN.
Keywords :
bioelectric phenomena; neural nets; neurophysiology; physiological models; sleep; synchronisation; after spike generation; cooperative functioning; integrate-and-fire neuron; neural networks; neuron model; neuron synchronization; slow after-potentials; slow-wave sleep; thalamic circuitry model; thalamic neuronal activity; threshold modulations; waking; Biological system modeling; Biology computing; Brain modeling; Circuits; Computational modeling; Fires; Nerve fibers; Neural networks; Neurons; Power system modeling;
Conference_Titel :
Neural Information Processing, 2002. ICONIP '02. Proceedings of the 9th International Conference on
Print_ISBN :
981-04-7524-1
DOI :
10.1109/ICONIP.2002.1198123
