Is the information transmitted by an ensemble of neurons determined solely by the number of spikes fired by each cell, or do correlations in the emission of action potentials also play a significant role? We derive a simple formula which enables this question to be answered rigorously for short timescales. Using a power series expansion, the mutual information the ensemble of neurons conveys about external stimuli is broken down into firing rate and correlation components. This analysis leads to a new quantification procedure which is directly applicable to simultaneous multiple neuron recordings. It also shows rigorously that even when noise correlations are not stimulus modulated, synergistic effects can arise if signal and noise correlat...
The functional significance of correlations between action potentials of neurons is still a matter o...
Correlations between spike trains can strongly modulate neuronal activity and affect the ability of ...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
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...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
To analyze the extent to which populations of neurons encode information in the numbers of spikes ea...
Neural networks encode information through their collective spiking activity in response to external...
We demonstrate that the information contained in the spike occurrence times of a population of neuro...
Information theoretic measures have been proposed as a quantitative framework to clarify the role of...
Neural networks encode information through their collective spiking activity in response to external...
AbstractThe role of correlated firing in representing information has been a subject of much discuss...
As its fundamental function, the brain processes and transmits information using populations of inte...
How do neurons compute? Two main theories compete: neurons could temporally integrate noisy inputs (...
Spike correlations among neurons are widely encountered in the brain. Although models accounting for...
The functional significance of correlations between action potentials of neurons is still a matter o...
Correlations between spike trains can strongly modulate neuronal activity and affect the ability of ...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
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...
Is the information transmitted by an ensemble of neurons determined solely by the number of spikes f...
To analyze the extent to which populations of neurons encode information in the numbers of spikes ea...
Neural networks encode information through their collective spiking activity in response to external...
We demonstrate that the information contained in the spike occurrence times of a population of neuro...
Information theoretic measures have been proposed as a quantitative framework to clarify the role of...
Neural networks encode information through their collective spiking activity in response to external...
AbstractThe role of correlated firing in representing information has been a subject of much discuss...
As its fundamental function, the brain processes and transmits information using populations of inte...
How do neurons compute? Two main theories compete: neurons could temporally integrate noisy inputs (...
Spike correlations among neurons are widely encountered in the brain. Although models accounting for...
The functional significance of correlations between action potentials of neurons is still a matter o...
Correlations between spike trains can strongly modulate neuronal activity and affect the ability of ...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...