Keywords: پلاستیک وابسته به زمانبندی; Adaptive scale-free neuronal network; Autaptic time delay; Spike-timing-dependent plasticity; Coherence resonance; Synchronization transition;
مقالات ISI پلاستیک وابسته به زمانبندی (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Stochastic spike synchronization; Small-world network; Subthreshold neurons;
Keywords: پلاستیک وابسته به زمانبندی; Aβ; β-amyloid; Aβo; oligomers of Aβ; ACTH; adrenocorticotropic hormone; AD; Alzheimer's disease; AMPA; amino-3-(3-hydroxy-5-methyl-isoxazol-4-yl) propanoic acid; APP; amyloid-precursor protein; AT; angiotensin; BBB; blood brain barrier; BCM; Bienens
Keywords: پلاستیک وابسته به زمانبندی; Adaptive scale-free neuronal network; Spike-timing-dependent plasticity; Time delay; Multiple coherence resonances; Synchronization transitions;
Keywords: پلاستیک وابسته به زمانبندی; Neuron; Autapse; Adaptive Newman-Watts network; Spike-timing-dependent plasticity; Synchronization transition;
Keywords: پلاستیک وابسته به زمانبندی; CMEP; cervicomedullary motor evoked potential; PCMS; paired corticospinal-motoneuronal stimulation; STDP; spike-timing-dependent plasticity; Spike-timing-dependent plasticity; STDP; Corticospinal;
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Phase oscillators; Adaptive networks; Synchronization
Keywords: پلاستیک وابسته به زمانبندی; Vibrational resonance; Spike-timing-dependent plasticity; Neural network; Small-world network
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Coherence resonance; Synchronization; Neuronal network; Small-world
Keywords: پلاستیک وابسته به زمانبندی; Spike; Spatio-temporal pattern; Learning rule; Spike-timing-dependent plasticity;
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Time delay; Adaptive stochastic resonance; Neuronal network; Small-world;
Solving a classification task by spiking neurons with STDP and temporal coding
Keywords: پلاستیک وابسته به زمانبندی; spike-timing-dependent plasticity; spiking neural network; temporal coding; classification;
STDP Allows Close-to-Optimal Spatiotemporal Spike Pattern Detection by Single Coincidence Detector Neurons
Keywords: پلاستیک وابسته به زمانبندی; LTD; Long-Term Depression; LTP; Long-Term Potentiation; LIF; leaky integrate-and-fire; SNR; signal-to-noise ratio; STDP; spike-timing-dependent plasticity; spike-timing-dependent plasticity (STDP); leaky integrate-and-fire neuron; coincidence detection; m
Targeting histone deacetylation for recovery of maternal deprivation-induced changes in BDNF and AKAP150 expression in the VTA
Keywords: پلاستیک وابسته به زمانبندی; A-kinase anchoring protein (AKAP); Dopamine; Histone deacetylase (HDAC); Histone deacetylase inhibitor (HDAC inhibitor); Brain derived neurotrophic factor (BDNF); Ventral tegmental area (VTA); Early life stress; Maternal deprivation (MD); Epigenetics; His
Spike-timing-dependent plasticity of polyaniline-based memristive element
Keywords: پلاستیک وابسته به زمانبندی; Memristor; Resistive switching; Spike-timing-dependent plasticity; Artificial neural networks; Polyaniline;
On the effect of stabilizing mean firing rate of a neuron due to STDP
Keywords: پلاستیک وابسته به زمانبندی; Spike-Timing-Dependent Plasticity; spiking neural networks; computational neuroscience;
Developmental control of spike-timing-dependent plasticity by tonic GABAergic signaling in striatum
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Tonic GABA; Development; Striatum; Inhibition;
On the Applicability of Spiking Neural Network Models to Solve the Task of Recognizing Gender Hidden in Texts
Keywords: پلاستیک وابسته به زمانبندی; supervised learning; spike-timing-dependent plasticity; artificial neural networks; spiking neural networks;
Spike-timing-dependent plasticity in the human dorso-lateral prefrontal cortex
Keywords: پلاستیک وابسته به زمانبندی; TMS; transcranial magnetic stimulation; EEG; electroencephalography; STDP; spike-timing-dependent plasticity; GABA; gamma-aminobutyric acid; MEP; motor-evoked potential; TEP; TMS-evoked potential; DLPFC; dorso-lateral prefrontal cortex; M1; primary motor
Hodge–Kodaira decomposition of evolving neural networks
Keywords: پلاستیک وابسته به زمانبندی; Hodge–Kodaira decomposition; Topology; Spike-timing-dependent plasticity; Chaos; Co-evolving network dynamics; Phase oscillators
Inhibitory control of site-specific synaptic plasticity in a model CA1 pyramidal neuron
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; CA1 pyramidal neuron; Dendritic spike; Inhibitory interneurons
Computational capability of liquid state machines with spike-timing-dependent plasticity
Keywords: پلاستیک وابسته به زمانبندی; Liquid state machines; Recurrent spiking neural network; Spike-timing-dependent plasticity; Computational capability
Spontaneous organization of the cortical structure through endogenous neural firing and gap junction transmission
Keywords: پلاستیک وابسته به زمانبندی; Neural network learning; Spike-timing-dependent plasticity; Gap junction transmission
Extraction of temporally correlated features from dynamic vision sensors with spike-timing-dependent plasticity
Keywords: پلاستیک وابسته به زمانبندی; Spiking neural network; Spike-timing-dependent plasticity; Unsupervised learning; Features extraction; Dynamic vision sensor; Silicon retina
PAX: A mixed hardware/software simulation platform for spiking neural networks
Keywords: پلاستیک وابسته به زمانبندی; Spiking neural networks; Integrated circuits; Hardware simulation; Conductance-based neuron models; Spike-Timing-Dependent Plasticity
A programmable spike-timing based circuit block for reconfigurable neuromorphic computing
Keywords: پلاستیک وابسته به زمانبندی; Spiking neurons; Spike-timing-dependent plasticity; Reconfigurable neuromorphic arrays; On-chip learning
How does non-random spontaneous activity contribute to brain development?
Keywords: پلاستیک وابسته به زمانبندی; Retinocollicular projections; Development; Spike-timing-dependent plasticity; Spontaneous activity; Topographic map
Spike-timing-related plasticity is preserved in Parkinson's disease and is enhanced by dopamine: Evidence from transcranial magnetic stimulation
Keywords: پلاستیک وابسته به زمانبندی; Parkinson's disease; Spike-timing-dependent plasticity; Dopamine; rTMS; I-waves;
Biophysical model of spike-timing-dependent plasticity based on temporal factors of intracellular Ca2+
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Calcium; Metaplasticity; Neuroscience
A neural circuit model forming semantic network with exception using spike-timing-dependent plasticity of inhibitory synapses
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Inhibitory connection; Semantic network; Exception;
Dual coding hypotheses for neural information representation
Keywords: پلاستیک وابسته به زمانبندی; Firing rate; Synchrony; Neural code; Spike-timing-dependent plasticity
An artificial early visual model adopting spike-timing-dependent plasticity
Keywords: پلاستیک وابسته به زمانبندی; Spiking neurons; Spike-timing-dependent plasticity; Monocular vision model; Depth recovery
Synaptic modifications depend on synapse location and activity: a biophysical model of STDP
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Synaptic modifications; Hebbian learning; Back-propagating spike; Dendritic spike; Neuronal activityss;
A model of STDP based on spatially and temporally local information: Derivation and combination with gated decay
Keywords: پلاستیک وابسته به زمانبندی; Spike-timing-dependent plasticity; Gated decay; Learning rules; Spiking neural networks;