Copyright: © 2009 Eyherabide, Rokem, Herz and Samengo. This is an open-access article subject to an exclusive license agreement between the authors and the Frontiers Research Foundation, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are credited.At the single-neuron level, precisely timed spikes can either constitute firing-rate codes or spike-pattern codes that utilize the relative timing between consecutive spikes. There has been little experimental support for the hypothesis that such temporal patterns contribute substantially to information transmission. By using grasshopper auditory receptors as a model system, we show that correlations between spikes can be used ...
Abstract The burst coding hypothesis posits that the occurrence of sudden high-frequency patterns of...
Single neurons in the cerebral cortex are immersed in a fluctuating electric field, the local field ...
Sensory neurons encode environmental stimuli by transmitting trains of nearly identical all-or-none ...
Copyright: © 2009 Eyherabide, Rokem, Herz and Samengo. This is an open-access article subject to an ...
Various classes of neurons alternate between high-frequency discharges and silent intervals. This ph...
Neuronal action potentials or spikes provide a long-range, noise-resistant means of communication be...
Various classes of neurons alternate between high-frequency discharges and silent intervals. This ph...
Sensory neurons respond to a stimulus, such as light or sound with temporal sequences of electric pu...
Neurons compute and communicate by transforming synaptic input patterns into output spike trains. Th...
Neuronal action potentials or spikes provide a long-range, noise-resistant means of communication be...
The precise timing of action potentials of sensory neurons relative to the time of stimulus presenta...
Sensory systems must translate incoming signals quickly and reliably so that an animal can act succe...
Thalamic neurons have been long assumed to fire in tonic mode during perceptive states, and in burst...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
Abstract The burst coding hypothesis posits that the occurrence of sudden high-frequency patterns of...
Single neurons in the cerebral cortex are immersed in a fluctuating electric field, the local field ...
Sensory neurons encode environmental stimuli by transmitting trains of nearly identical all-or-none ...
Copyright: © 2009 Eyherabide, Rokem, Herz and Samengo. This is an open-access article subject to an ...
Various classes of neurons alternate between high-frequency discharges and silent intervals. This ph...
Neuronal action potentials or spikes provide a long-range, noise-resistant means of communication be...
Various classes of neurons alternate between high-frequency discharges and silent intervals. This ph...
Sensory neurons respond to a stimulus, such as light or sound with temporal sequences of electric pu...
Neurons compute and communicate by transforming synaptic input patterns into output spike trains. Th...
Neuronal action potentials or spikes provide a long-range, noise-resistant means of communication be...
The precise timing of action potentials of sensory neurons relative to the time of stimulus presenta...
Sensory systems must translate incoming signals quickly and reliably so that an animal can act succe...
Thalamic neurons have been long assumed to fire in tonic mode during perceptive states, and in burst...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
Abstract The burst coding hypothesis posits that the occurrence of sudden high-frequency patterns of...
Single neurons in the cerebral cortex are immersed in a fluctuating electric field, the local field ...
Sensory neurons encode environmental stimuli by transmitting trains of nearly identical all-or-none ...