Pages that link to "Q33935038"

The following pages link to Generalized Bienenstock-Cooper-Munro rule for spiking neurons that maximizes information transmission. (Q33935038):

Displaying 42 items.

• Probabilistic brains: knowns and unknowns (Q26852897) (← links)
• Cultured Cortical Neurons Can Perform Blind Source Separation According to the Free-Energy Principle (Q27317050) (← links)
• A history of spike-timing-dependent plasticity (Q28744240) (← links)
• Motor cortical plasticity induced by motor learning through mental practice. (Q30412088) (← links)
• Perceptron learning rule derived from spike-frequency adaptation and spike-time-dependent plasticity (Q30493798) (← links)
• Behavior control in the sensorimotor loop with short-term synaptic dynamics induced by self-regulating neurons (Q30578806) (← links)
• Independent component analysis in spiking neurons (Q33565406) (← links)
• Symmetry of learning rate in synaptic plasticity modulates formation of flexible and stable memories (Q33916277) (← links)
• Anti-Hebbian Spike-Timing-Dependent Plasticity and Adaptive Sensory Processing (Q34479898) (← links)
• A calcium-dependent plasticity rule for HCN channels maintains activity homeostasis and stable synaptic learning (Q34580112) (← links)
• Integration of sensory quanta in cuneate nucleus neurons in vivo (Q34587005) (← links)
• Reinforcement learning, spike-time-dependent plasticity, and the BCM rule (Q34637929) (← links)
• Bayesian computation emerges in generic cortical microcircuits through spike-timing-dependent plasticity (Q34697786) (← links)
• Imbalance between excitation and inhibition among synaptic connections of CA3 pyramidal neurons in cultured hippocampal slices (Q35094508) (← links)
• A triplet spike-timing-dependent plasticity model generalizes the Bienenstock-Cooper-Munro rule to higher-order spatiotemporal correlations (Q35585654) (← links)
• A Reward-Maximizing Spiking Neuron as a Bounded Rational Decision Maker (Q35665009) (← links)
• Phenomenological models of synaptic plasticity based on spike timing (Q37168294) (← links)
• Homeostatic Plasticity and STDP: Keeping a Neuron's Cool in a Fluctuating World (Q37855553) (← links)
• Spatiotemporal computations of an excitable and plastic brain: neuronal plasticity leads to noise-robust and noise-constructive computations (Q38374156) (← links)
• The interplay of plasticity and adaptation in neural circuits: a generative model (Q39097461) (← links)
• Learning Probabilistic Inference through Spike-Timing-Dependent Plasticity (Q39599319) (← links)
• A spiking neuron as information bottleneck (Q39888960) (← links)
• STDP in Adaptive Neurons Gives Close-To-Optimal Information Transmission (Q41155927) (← links)
• A biologically plausible learning rule for the Infomax on recurrent neural networks (Q41763401) (← links)
• Rate and pulse based plasticity governed by local synaptic state variables (Q41975705) (← links)
• STDP in Recurrent Neuronal Networks. (Q42416084) (← links)
• Adaptive design optimization: a mutual information-based approach to model discrimination in cognitive science. (Q46082845) (← links)
• Optimality model of unsupervised spike-timing-dependent plasticity: synaptic memory and weight distribution (Q47301286) (← links)
• Recurrent Information Optimization with Local, Metaplastic Synaptic Dynamics (Q48032981) (← links)
• Optimal spike-timing-dependent plasticity for precise action potential firing in supervised learning (Q48503620) (← links)
• The interplay between homeostatic synaptic plasticity and functional dendritic compartments. (Q48607868) (← links)
• Effect on information transfer of synaptic pruning driven by spike-timing-dependent plasticity (Q48706283) (← links)
• Spiking neurons can learn to solve information bottleneck problems and extract independent components (Q48822074) (← links)
• Recurrent infomax generates cell assemblies, neuronal avalanches, and simple cell-like selectivity (Q48876261) (← links)
• The Geometry of Plasticity-Induced Sensitization in Isoinhibitory Rate Motifs (Q51258337) (← links)
• The endurance and selectivity of spatial patterns of long-term potentiation/depression in dendrites under homeostatic synaptic plasticity. (Q51628215) (← links)
• Stochastic resonance and self-tuning: a simple threshold system (Q51805018) (← links)
• Voltage dependence of synaptic plasticity is essential for rate based learning with short stimuli. (Q54958365) (← links)
• Differential Modulation of Motor Cortical Plasticity and Excitability in Early and Late Phases of Human Motor Learning (Q58049911) (← links)
• The Sensorimotor Loop as a Dynamical System: How Regular Motion Primitives May Emerge from Self-Organized Limit Cycles (Q58643637) (← links)
• Functional mechanisms underlie the emergence of a diverse range of plasticity phenomena (Q59810712) (← links)
• A Delay Learning Algorithm Based on Spike Train Kernels for Spiking Neurons (Q64111688) (← links)