Spike Timing-Dependent Plasticity in the Address Domain

机译：地址域中与峰值定时相关的可塑性

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Address-event representation (AER), originally proposed as a means to communicate sparse neural events between neuromorphic chips, has proven efficient in implementing large-scale networks with arbitrary, configurable synaptic connectivity. In this work, we further extend the functionality of AER to implement arbitrary, configurable synaptic plasticity in the address domain. As proof of concept, we implement a biologically inspired form of spike timing-dependent plasticity (STDP) based on relative timing of events in an AER framework. Experimental results from an analog VLSI integrate-and-fire network demonstrate address domain learning in a task that requires neurons to group correlated inputs.

机译：地址事件表示（AER）最初是作为在神经形态芯片之间传递稀疏神经事件的一种手段而提出的，已被证明可以有效地实现具有任意可配置突触连接的大规模网络。在这项工作中，我们进一步扩展了AER的功能，以在地址域中实现任意的，可配置的突触可塑性。作为概念的证明，我们基于AER框架中事件的相对时序，实施了一种由生物学激发的，与峰值时序相关的可塑性（STDP）的形式。来自模拟VLSI集成和发射网络的实验结果表明，在一项需要神经元对相关输入进行分组的任务中，可以进行地址域学习。

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《Sixteenth Annual Neural Information Processing Systems (NIPS) Conference; Dec 9-14, 2002; British Columbia, Canada》|2002年|p.1171-1178|共8页
会议地点 British Columbia(CA);British Columbia(CA);British Columbia(CA)
作者
R. Jacob Vogelstein; Francesco Tenore; Ralf Philipp; Miriam S. Adlerstein; David H. Goldberg; Gert Cauwenberghs;
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Department of Biomedical Engineering, Johns Hopkins University, Baltimore, MD 21218;

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正文语种 eng
中图分类自动化技术、计算机技术;
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1. Interaction of inhibition and triplets of excitatory spikes modulates the NMDA-R-mediated synaptic plasticity in a computational model of spike timing-dependent plasticity [J] . Hippocampus . 2013,第1期

机译：抑制性峰和三重态性兴奋性峰的相互作用在由峰时间相关的可塑性计算模型中调节NMDA-R介导的突触可塑性
2. Model for the induction of spike timing-dependent plasticity by pre- and postsynaptic spike trains [J] . Kristofor D Carlson, Nicholas Giordano BMC Neuroscience . 2010,第SUPPLEMENTa1期

机译：突触前和突触后尖峰序列诱导与尖峰时序相关的可塑性的模型
3. Triplets of spikes in a model of spike timing-dependent plasticity. [J] . Pfister JP, Gerstner W The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2006,第38期

机译：钉三胞胎在钉时序依赖性可塑性模型中。
4. Spike Timing-Dependent Plasticity in the Address Domain [C] . R. Jacob Vogelstein, Francesco Tenore, Ralf Philipp, Annual neural information processing systems conference . 2003

机译：地址域中的尖峰定时依赖性可塑性
5. Analog Spiking Neural Network Implementing Spike Timing-Dependent Plasticity on 65 nm CMOS [D] . Vincent, Luke. 2021

机译：模拟尖峰神经网络在65nm CMOS上实施尖刺时序依赖性可塑性
6. Dopamine Receptor Activation Is Required for GABAergic Spike Timing-Dependent Plasticity in Response to Complex Spike Pairing in the Ventral Tegmental Area [O] . Ludovic D. Langlois, Matthieu Dacher, Fereshteh S. Nugent 2018

机译：多巴胺受体激活需要GABA能性穗定时依赖可塑性以响应腹侧被盖区的复杂穗配对。
7. Improved Spike-Timed Mappings using a Tri-Phasic Spike Timing-Dependent Plasticity Rule [O] . Notley, S, Grüning, A 2012

机译：改进的穗定时映射使用三相穗时间相关的可塑性规则

Spike Timing-Dependent Plasticity in the Address Domain

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