THE ALZHEIMER’S DISEASE IMPACT ON ARTIFICIAL NEURAL NETWORKS

Authors

  • Maksims Zigunovs Turība University (LV)

DOI:

https://doi.org/10.17770/etr2021vol2.6632

Keywords:

Neuron network, Alzheimer’s Disease, Neuron synchronization

Abstract

The Alzheimer’s Disease main impact on the brain is the memory loss effect. Therefore, in the “neuron world” this makes a disorder of signal impulses and disconnects neurons that causes the neuron death and memory loss. The research main aim is to determine the average loss of signal and develop memory loss prediction models for artificial neuron network. The Izhikevich neural networking model is often used for constructing neuron neural electrical signal modeling. The neuron model signal rhythm and spikes are used as model neuron characteristics for understanding if the system is stable at certain moment and in time. In addition, the electrical signal parameters are used in similar way as they are used in a biological brain. During the research the neural network initial conditions are assumed to be randomly selected in specified the working neuron average sigma I parameters range.

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References

AA.L. Hodgkin, A.F. Huxley, “A quantitative description of membrane current and its applications to conduction and excitation in nerve”, The Journal of Physiology, vol. 117, no. 4, pp. 500 – 544, 1952.

B. Ilbarz, J.M. Casado, M.A.F. Sanjuan, “Map – based models in neuronal dynamics”, Physics Reports, vol. 501, no. 1 – 2, pp. 1 – 74, 2011.

N.F. Rulkov, “Modeling of spiking – bursting neural behavior using two – dimensional map”, Physical Review, vo. 64, no. 4, Article ID 041922, 2002.

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Published

2021-06-17

How to Cite

[1]
M. Zigunovs, “THE ALZHEIMER’S DISEASE IMPACT ON ARTIFICIAL NEURAL NETWORKS”, ETR, vol. 2, pp. 205–209, Jun. 2021, doi: 10.17770/etr2021vol2.6632.