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W4385481216 endingPage "129120" @default.
W4385481216 startingPage "129120" @default.
W4385481216 abstract "Biological neurons are clustered and functional synapses are created to propagate electric signals accompanying with formation of spatial patterns in the neural network. From physical aspect, fast synaptic connections to neurons provide an effective shortcut for energy exchange and keeping energy balance between neurons. In fact, field coupling behaves effective bridge connections to neurons and then neural activities can be controlled by spatial induction currents in the neural network. In this paper, memristive neurons are controlled by magnetic flux by inducing gradient induction current in presence of electromagnetic radiation without synaptic connections. Differed from the previous uniform radiation, spatial radiation is imposed on the neural network and the stability of spatial patterns is explored by imposing a spatiotemporal disturbance on the network. Memristive neurons developed from Hindmarsh–Rose neurons by involving memristive term and magnetic flux variable are used to build a chain network and a lattice network under field coupling rather than using synaptic coupling. Synchronization factors are calculated to discern the synchronization dependence on noise, amplitude and frequency in the spatial electromagnetic radiation. An isolated neuron can present stochastic resonance under noise and radiation with diversity. Field coupling enhances energy exchange and local energy balance, and then synchronous patterns are controlled in absence of synaptic coupling. External noise and spatial disturbance can induce certain diversity in induction current and excitability, therefore, approach of complete synchronization and development of regular patterns are blocked because of local energy balance under field coupling. These results indicate that energy injection and control of energy flow are effective to prevent the occurrence of bursting synchronization and coexistence of multiple firing modes is formed in neural network composed of memristive neurons under spatial radiation." @default.
W4385481216 created "2023-08-03" @default.
W4385481216 creator A5017218681 @default.
W4385481216 creator A5023933048 @default.
W4385481216 creator A5024436877 @default.
W4385481216 date "2023-09-01" @default.
W4385481216 modified "2023-10-12" @default.
W4385481216 title "Nonlinear responses in a neural network under spatial electromagnetic radiation" @default.
W4385481216 cites W1983516483 @default.
W4385481216 cites W1990423581 @default.
W4385481216 cites W2020590196 @default.
W4385481216 cites W2066014290 @default.
W4385481216 cites W2098582364 @default.
W4385481216 cites W2335992811 @default.
W4385481216 cites W2339554881 @default.
W4385481216 cites W2549238765 @default.
W4385481216 cites W2625353753 @default.
W4385481216 cites W2770163253 @default.
W4385481216 cites W2784042114 @default.
W4385481216 cites W2784051681 @default.
W4385481216 cites W2801172196 @default.
W4385481216 cites W2810321328 @default.
W4385481216 cites W2810542477 @default.
W4385481216 cites W2898415884 @default.
W4385481216 cites W2912527483 @default.
W4385481216 cites W2921332374 @default.
W4385481216 cites W2923770932 @default.
W4385481216 cites W2942684165 @default.
W4385481216 cites W2943141190 @default.
W4385481216 cites W2963162614 @default.
W4385481216 cites W2971698135 @default.
W4385481216 cites W2974827429 @default.
W4385481216 cites W2979294168 @default.
W4385481216 cites W2979969993 @default.
W4385481216 cites W2980063834 @default.
W4385481216 cites W2983283164 @default.
W4385481216 cites W2987072790 @default.
W4385481216 cites W2997679503 @default.
W4385481216 cites W3001187942 @default.
W4385481216 cites W3014659950 @default.
W4385481216 cites W3017729931 @default.
W4385481216 cites W3023848433 @default.
W4385481216 cites W3025975739 @default.
W4385481216 cites W3035609675 @default.
W4385481216 cites W3036397855 @default.
W4385481216 cites W3091921692 @default.
W4385481216 cites W3096515147 @default.
W4385481216 cites W3107263151 @default.
W4385481216 cites W3107349302 @default.
W4385481216 cites W3110350752 @default.
W4385481216 cites W3120073678 @default.
W4385481216 cites W3130580315 @default.
W4385481216 cites W3138668887 @default.
W4385481216 cites W3140955804 @default.
W4385481216 cites W3149466578 @default.
W4385481216 cites W3150628723 @default.
W4385481216 cites W3157058345 @default.
W4385481216 cites W3157378970 @default.
W4385481216 cites W3159016665 @default.
W4385481216 cites W3168734480 @default.
W4385481216 cites W3193582038 @default.
W4385481216 cites W3200374065 @default.
W4385481216 cites W3202053003 @default.
W4385481216 cites W3202440300 @default.
W4385481216 cites W3205604229 @default.
W4385481216 cites W4200582161 @default.
W4385481216 cites W4205960752 @default.
W4385481216 cites W4214654710 @default.
W4385481216 cites W4220666530 @default.
W4385481216 cites W4220915531 @default.
W4385481216 cites W4223488819 @default.
W4385481216 cites W4224273936 @default.
W4385481216 cites W4225328539 @default.
W4385481216 cites W4225388178 @default.
W4385481216 cites W4226099035 @default.
W4385481216 cites W4226200888 @default.
W4385481216 cites W4229005303 @default.
W4385481216 cites W4242329267 @default.
W4385481216 cites W4248268459 @default.
W4385481216 cites W4281256846 @default.
W4385481216 cites W4282921439 @default.
W4385481216 cites W4283326176 @default.
W4385481216 cites W4284672610 @default.
W4385481216 cites W4297364266 @default.
W4385481216 cites W4304163466 @default.
W4385481216 cites W4317651656 @default.
W4385481216 cites W4320175963 @default.
W4385481216 cites W4327724346 @default.
W4385481216 cites W4362640737 @default.
W4385481216 cites W4376864479 @default.
W4385481216 doi "https://doi.org/10.1016/j.physa.2023.129120" @default.
W4385481216 hasPublicationYear "2023" @default.
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W4385481216 hasAuthorship W4385481216A5024436877 @default.