Neural networks encode information through their collective spiking activity in response to external stimuli. This population response is noisy and strongly correlated, with complex interplay between correlations induced by the stimulus, and correlations caused by shared noise. Understanding how these correlations affect information transmission has so far been limited to pairs or small groups of neurons, because the curse of dimensionality impedes the evaluation of mutual information in larger populations. Here we develop a small-correlation expansion to compute the stimulus information carried by a large population of neurons, yielding interpretable analytical expressions in terms of the neurons' firing rates and pairwise correlations. We...
Spike correlations among neurons are widely encountered in the brain. Although models accounting for...
Responses of single neurons to a fixed stimulus are usually both variable and highly ambiguous. Ther...
Although we know a lot about how individual neurons in the brain represent the sensory environment, ...
Neural networks encode information through their collective spiking activity in response to external...
The ability to discriminate between similar sensory stimuli relies on the amount of information enco...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
International audienceHow much information does a neural population convey about a stimulus? Answers...
AbstractThe role of correlated firing in representing information has been a subject of much discuss...
Brain function involves the activity of neuronal populations. Much recent effort has been devoted to...
Correlations in sensory neural networks have both extrinsic and intrinsic origins. Extrinsic or stim...
The amount of information encoded by networks of neurons critically depends on the correlation struc...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
In many cases, great knowledge regarding single neuron activity during the encoding of sensory signa...
How effectively does the brain encode information across large numbers of neurons? Many models predi...
Spike correlations among neurons are widely encountered in the brain. Although models accounting for...
Responses of single neurons to a fixed stimulus are usually both variable and highly ambiguous. Ther...
Although we know a lot about how individual neurons in the brain represent the sensory environment, ...
Neural networks encode information through their collective spiking activity in response to external...
The ability to discriminate between similar sensory stimuli relies on the amount of information enco...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
International audienceHow much information does a neural population convey about a stimulus? Answers...
AbstractThe role of correlated firing in representing information has been a subject of much discuss...
Brain function involves the activity of neuronal populations. Much recent effort has been devoted to...
Correlations in sensory neural networks have both extrinsic and intrinsic origins. Extrinsic or stim...
The amount of information encoded by networks of neurons critically depends on the correlation struc...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
In many cases, great knowledge regarding single neuron activity during the encoding of sensory signa...
How effectively does the brain encode information across large numbers of neurons? Many models predi...
Spike correlations among neurons are widely encountered in the brain. Although models accounting for...
Responses of single neurons to a fixed stimulus are usually both variable and highly ambiguous. Ther...
Although we know a lot about how individual neurons in the brain represent the sensory environment, ...