Add to ORKGItem does not contain fulltextUnderstanding the relation between (sensory) stimuli and the activity of neurons (i.e. `the neural code') lies at heart of understanding the computational properties of the brain. However, quantifying the information between a stimulus and a spike train has proven to be challenging. We propose a new (in vitro) method to measure how much information a single neuron transfers from the input it receives to its output spike train. The input is generated by an artificial neural network that responds to a randomly appearing and disappearing `sensory stimulus': the hidden state. The sum of this network activity is injected as current input into the neuron under investigation. The mutual information between the hidden ...
Quantification of information content and its temporal variation in intracellular calcium spike trai...
It is difficult to extract the information carried by neuronal responses about a set of stimuli beca...
Neurons communicate via the relative timing of all-or-none biophysical signals called spikes. For st...
Understanding the relation between (sensory) stimuli and the activity of neurons (i.e., "the neural ...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
While it is generally agreed that neurons transmit information about their synaptic inputs through s...
Abstract Neurons respond to external stimuli by emitting sequences of action potentials (spike train...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
As its fundamental function, the brain processes and transmits information using populations of inte...
Information theory quantifies how much information a neural response carries about the stimulus. Thi...
Neurons can transmit information about sensory stimuli via their firing rate, spike latency, or by t...
Neurons compute and communicate by transforming synaptic input patterns into output spike trains. Th...
International audienceCompelling behavioral evidence suggests that humans can make optimal decisions...
The mutual information between stimulus and spike-train response is commonly used to monitor neural ...
The mutual information between stimulus and spike-train response is commonly used to monitor neural ...
Quantification of information content and its temporal variation in intracellular calcium spike trai...
It is difficult to extract the information carried by neuronal responses about a set of stimuli beca...
Neurons communicate via the relative timing of all-or-none biophysical signals called spikes. For st...
Understanding the relation between (sensory) stimuli and the activity of neurons (i.e., "the neural ...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
While it is generally agreed that neurons transmit information about their synaptic inputs through s...
Abstract Neurons respond to external stimuli by emitting sequences of action potentials (spike train...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
As its fundamental function, the brain processes and transmits information using populations of inte...
Information theory quantifies how much information a neural response carries about the stimulus. Thi...
Neurons can transmit information about sensory stimuli via their firing rate, spike latency, or by t...
Neurons compute and communicate by transforming synaptic input patterns into output spike trains. Th...
International audienceCompelling behavioral evidence suggests that humans can make optimal decisions...
The mutual information between stimulus and spike-train response is commonly used to monitor neural ...
The mutual information between stimulus and spike-train response is commonly used to monitor neural ...
Quantification of information content and its temporal variation in intracellular calcium spike trai...
It is difficult to extract the information carried by neuronal responses about a set of stimuli beca...
Neurons communicate via the relative timing of all-or-none biophysical signals called spikes. For st...