Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns. - Wikidata - awgldk - TriplyDB

Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

http://www.wikidata.org/entity/Q48389191

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Development of multisensory integration from the perspective of the individual neuron Microsaccades enable efficient synchrony-based coding in the retina: a simulation study Plasticity in memristive devices for spiking neural networks On spike-timing-dependent-plasticity, memristive devices, and building a self-learning visual cortex.A history of spike-timing-dependent plasticity The Role of Neuromodulators in Cortical Plasticity. A Computational Perspective fMRI models of dendritic and astrocytic networks.Design principles of sensory processing in cerebellum-like structures. Early stage processing of electrosensory and auditory objects.The chronotron: a neuron that learns to fire temporally precise spike patterns.Neural avalanches at the critical point between replay and non-replay of spatiotemporal patterns Synaptic scaling enables dynamically distinct short- and long-term memory formation.A taxonomy for spatiotemporal connectionist networks revisited: the unsupervised case.Cellular, circuit, and synaptic mechanisms in song learning.Self-Adaptive Spike-Time-Dependent Plasticity of Metal-Oxide Memristors.Phenomenological models of synaptic plasticity based on spike timing.Limits to the development of feed-forward structures in large recurrent neuronal networks.STDP and STDP variations with memristors for spiking neuromorphic learning systems.Cell assemblies in the cerebral cortex.Implementing Signature Neural Networks with Spiking Neurons.Alternation of up and down states at a dynamical phase-transition of a neural network with spatiotemporal attractors.Timing is not Everything: Neuromodulation Opens the STDP Gate Seven neurons memorizing sequences of alphabetical images via spike-timing dependent plasticity.From hebb rules to spike-timing-dependent plasticity: a personal account.STDP in Recurrent Neuronal Networks.Local and global gating of synaptic plasticity.Comparison and regulation of neuronal synchronization for various STDP rules.Storage of Phase-Coded Patterns via STDP in Fully-Connected and Sparse Network: A Study of the Network Capacity.Associative memory of phase-coded spatiotemporal patterns in leaky Integrate and Fire networks.A biological gradient descent for prediction through a combination of STDP and homeostatic plasticity.Intrinsic stabilization of output rates by spike-based Hebbian learning.Reversible optical switching memristors with tunable STDP synaptic plasticity: a route to hierarchical control in artificial intelligent systems.Emergence of network structure due to spike-timing-dependent plasticity in recurrent neuronal networks V: self-organization schemes and weight dependence.Competitive STDP-based spike pattern learning.Ergodicity of spike trains: when does trial averaging make sense?Activity-dependent development of axonal and dendritic delays, or, why synaptic transmission should be unreliable.Optimal spike-timing-dependent plasticity for precise action potential firing in supervised learning.Relative spike time coding and STDP-based orientation selectivity in the early visual system in natural continuous and saccadic vision: a computational model.Information recall using relative spike timing in a spiking neural network.STDP provides the substrate for igniting synfire chains by spatiotemporal input patterns.Inhibitory plasticity balances excitation and inhibition in sensory pathways and memory networks.

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P2860

Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

http://www.wikidata.org/entity/Q48389191

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1993 nî lūn-bûn

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1993年の論文

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1993年学术文章

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1993年学术文章

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1993年学术文章

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1993年学术文章

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1993年學術文章

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1993年學術文章

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name

Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

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Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

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Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

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Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

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Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

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Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

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Biological Cybernetics

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Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.

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J L van Hemmen

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R Ritz

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W Gerstner

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P2860

Hebbian learning reconsidered: representation of static and dynamic objects in associative neural nets.

The impulses produced by sensory nerve endings: Part I.

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503-515

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10.1007/BF00199450

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5-6

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69

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Wulfram Gerstner

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1993-01-01T00:00:00Z

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7903867

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