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Tuning curves, neuronal variability, and sensory coding.The impulses produced by sensory nerve-endings: Part II. The response of a Single End-OrganOn initial Brain Activity Mapping of episodic and semantic memory code in the hippocampusCoding "what" and "when" in the Archer fish retinaThe structure and function of a slowly adapting touch corpuscle in hairy skinCan Optogenetic Tools Determine the Importance of Temporal Codes to Sensory Information Processing in the Brain?Spike count, spike timing and temporal information in the cortex of awake, freely moving ratsData-robust tight lower bounds to the information carried by spike times of a neuronal population.Shifts in coding properties and maintenance of information transmission during adaptation in barrel cortexThe natural variation of a neural code.M-type potassium conductance controls the emergence of neural phase codes: a combined experimental and neuron modelling study.Cortical plasticity induced by spike-triggered microstimulation in primate somatosensory cortexAMPA autoreceptors fill the gap in olfactory temporal coding.Cellular adaptation facilitates sparse and reliable coding in sensory pathways.Pain mechanisms: a commentary on concepts and issues.Neural ensemble communities: open-source approaches to hardware for large-scale electrophysiology.The unsilent majority-TRPV1 drives "spontaneous" transmission of unmyelinated primary afferents within cardiorespiratory NTSComparison of latency and rate coding for the direction of whisker deflection in the subcortical somatosensory pathway.Olfactory cortical neurons read out a relative time code in the olfactory bulbNeural coding and contextual influences in the whisker system.What the success of brain imaging implies about the neural code.On brain activity mapping: insights and lessons from Brain Decoding Project to map memory patterns in the hippocampus.Population activity statistics dissect subthreshold and spiking variability in V1.Microsecond-scale timing precision in rodent trigeminal primary afferentsA minimum-error, energy-constrained neural code is an instantaneous-rate code.Throwing a glance at the neural code: rapid information transmission in the visual system.Neuronal oscillations and the rate-to-phase transform: mechanism, model and mutual information.A statistical mechanical problem?A memristive spiking neuron with firing rate codingSmall conductance Ca2+-activated K+ channels induce the firing pause periods during the activation of Drosophila nociceptive neuronsA new class of metrics for spike trains.Semi-chronic motorized microdrive and control algorithm for autonomously isolating and maintaining optimal extracellular action potentials.Information transmission and recovery in neural communications channels.Population equations for degree-heterogenous neural networks.Spatiotemporal coding in the cortex: information flow-based learning in spiking neural networks.Universality in neural networks: the importance of the 'mean firing rate'.The birth of information in the brain: Edgar Adrian and the vacuum tube.Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns.Parallel coding schemes of whisker velocity in the rat's somatosensory system.Lifespan differences in cortical dynamics of auditory perception.
P2860
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P2860
description
1926 nî lūn-bûn
@nan
1926年の論文
@ja
1926年学术文章
@wuu
1926年学术文章
@zh-cn
1926年学术文章
@zh-hans
1926年学术文章
@zh-my
1926年学术文章
@zh-sg
1926年學術文章
@yue
1926年學術文章
@zh
1926年學術文章
@zh-hant
name
The impulses produced by sensory nerve endings: Part I.
@en
The impulses produced by sensory nerve endings: Part I.
@nl
type
label
The impulses produced by sensory nerve endings: Part I.
@en
The impulses produced by sensory nerve endings: Part I.
@nl
prefLabel
The impulses produced by sensory nerve endings: Part I.
@en
The impulses produced by sensory nerve endings: Part I.
@nl
P1476
The impulses produced by sensory nerve endings: Part I.
@en
P2093
P2860
P356
10.1113/JPHYSIOL.1926.SP002273
P407
P577
1926-03-01T00:00:00Z