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Synchronous spike propagation in Izhikevich neuron system with spike-timing dependent plasticity

机译：Izhikevich神经元系统中的同步尖峰传播，具有与尖峰时刻相关的可塑性

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Recently spike-timing dependent plasticity (STDP) was discovered in the cerebral cortex and the hippocampus and modeled as STDP rules. On the other hand, Izhikevich neuron model was proposed to be able to reproduce the firing patterns observed experimentally. In this paper, it is found that the STDP process like a stochastic resonance phenomenon arises in Izhikevich neuron system which has some typical firing patterns such as regular spiking (RS), intrinsically bursting (IB) and chattering (CH). Under the optimum noise intensity, synaptic weights are potentiated according to each firing pattern of RS, IB and CH and signals can be propagated stably in this system. It is concluded that STDP with the noise can enhance the synchronous spike propagation.

机译：最近，在大脑皮层和海马体中发现了与穗定时相关的可塑性（STDP），并被建模为STDP规则。另一方面，提出了Izhikevich神经元模型，该模型能够重现实验观察到的放电模式。在本文中，我们发现在Izhikevich神经元系统中会出现类似于随机共振现象的STDP过程，该过程具有一些典型的触发模式，例如规则尖峰（RS），固有爆发（IB）和颤动（CH）。在最佳噪声强度下，根据RS，IB和CH的每个触发模式增强突触权重，并且信号可以在该系统中稳定传播。结论是带噪声的STDP可以增强同步尖峰传播。

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《SICE;SICE Annual Conference》|2012年|p.453- 458|共6页
会议地点 Akita(JP)
作者
Nobukawa, Sou; Nishimura, Haruhiko;
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Graduate School of Applied Informatics University of Hyogo 7-1-28 Minatojima-minami Chuo-ku Kobe Hyogo 650-0047 Japan;

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1. CMOL implementation of spiking neurons and spike-timing dependent plasticity [J] . Ahmad Afifi, Ahmad Ayatollahi, Farshid Raissi International journal of circuit theory and applications . 2011,第4期

机译：尖峰神经元和尖峰时序相关可塑性的CMOL实现
2. A VLSI array of low-power spiking neurons and bistable synapses with spike-timing dependent plasticity [J] . Indiveri G., Chicca E., Douglas R. IEEE Transactions on Neural Networks . 2006,第1期

机译：低功率尖峰神经元和双稳态突触的VLSI阵列，具有依赖于尖峰时序的可塑性
3. Simulation model of CA1 pyramidal neurons reveal opposing roles for the Na + /Ca 2+ exchange current and Ca 2+ -activated K + current during spike-timing dependent synaptic plasticity [J] . Damien M. O’Halloran PLoS One . 2020,第3期

机译：CA1金字塔神经元的仿真模型揭示了峰值定时突触塑性突触上Na + / Ca 2+交换电流和Ca 2+的k +电流的相反作用
4. Synchronous spike propagation in Izhikevich neuron system with spike-timing dependent plasticity [C] . Nobukawa Sou, Nishimura Haruhiko SICE Annual Conference . 2012

机译：具有尖峰定时依赖性可塑性Izhikevich神经元系统的同步尖峰传播
5. Network Structures Arising from Spike-Timing Dependent Plasticity. [D] . Babadi, Baktash. 2011

机译：依赖于峰值计时的可塑性产生的网络结构。
6. Spike-Timing-Dependent Plasticity With Axonal Delay Tunes Networks of Izhikevich Neurons to the Edge of Synchronization Transition With Scale-Free Avalanches [O] . Mahsa Khoshkhou, Afshin Montakhab 2019

机译：轴突延迟与尖峰时间相关的可塑性将伊契克维奇神经元的网络调谐到无标度雪崩同步过渡的边缘
7. Spike-timing dependent plasticity and synchronous oscillations in an invertebrate olfactory system [O] . Cassenaer Stijn 2008

机译：无脊椎动物嗅觉系统中与尖峰定时相关的可塑性和同步振荡

Synchronous spike propagation in Izhikevich neuron system with spike-timing dependent plasticity

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