Neural oscillations are electrical activities of the brain measurable at different frequencies. This paper studies the interaction between the fast and slow processes in the brain. We recorded signals intracranially from the simple Wistar rats, performed the signal processing, and computed the correlation between envelopes of the high-frequency gamma rhythm and a low-frequency ECoG signal. The analysis shows that the low-frequency signal (delta rhythm) modulates the gamma rhythm with a small time delay. Further, we used simple excitable neuron models, namely FitzHugh-Nagumo and Hindmarsh-Rose, to simulate the gamma rhythm. The low-frequency signal delta rhythm can be used as the input to affect the threshold and simulate gamma rhythm using ...
Gamma-frequency oscillations (∼30-100 Hz) in cortical network activity have been proposed to provide...
Despite the widespread use of EEGs to measure the large-scale dynamics of the human brain, little is...
SummaryNeuronal oscillations in the gamma band (30–80 Hz) have been suggested to play a central role...
Neuronal oscillations at various frequency bands play an important role in neuronal information proc...
The brain produces rhythms in a variety of frequency bands. Some are likely by-products of neuronal ...
Fast oscillations and in particular gamma-band oscillation (20-80 Hz) are commonly observed during b...
An original simple neural mass model of a population of neurons has been used to investigate the ori...
The hippocampal theta and neocortical gamma rhythms are two prominent examples of oscillatory neuron...
The hippocampal theta and neocortical gamma rhythms are two prominent examples of oscillatory neuron...
Our brains are composed of billions of neurons that somehow coordinate their activity to generate ou...
Gamma rhythm (which has a center frequency between 30 and 80 Hz) is modulated by cognitive mechanism...
Gamma-frequency oscillations (approximately 30-100 Hz) in cortical network activity have been propos...
Vinck et al. develop new statistical techniques for the analysis of electrophysiological brain data,...
Gamma frequency rhythms have been implicated in numerous studies for their role in healthy and abnor...
Local gamma-band (~30-100Hz) oscillations in the brain, produced by feedback inhibition on a charact...
Gamma-frequency oscillations (∼30-100 Hz) in cortical network activity have been proposed to provide...
Despite the widespread use of EEGs to measure the large-scale dynamics of the human brain, little is...
SummaryNeuronal oscillations in the gamma band (30–80 Hz) have been suggested to play a central role...
Neuronal oscillations at various frequency bands play an important role in neuronal information proc...
The brain produces rhythms in a variety of frequency bands. Some are likely by-products of neuronal ...
Fast oscillations and in particular gamma-band oscillation (20-80 Hz) are commonly observed during b...
An original simple neural mass model of a population of neurons has been used to investigate the ori...
The hippocampal theta and neocortical gamma rhythms are two prominent examples of oscillatory neuron...
The hippocampal theta and neocortical gamma rhythms are two prominent examples of oscillatory neuron...
Our brains are composed of billions of neurons that somehow coordinate their activity to generate ou...
Gamma rhythm (which has a center frequency between 30 and 80 Hz) is modulated by cognitive mechanism...
Gamma-frequency oscillations (approximately 30-100 Hz) in cortical network activity have been propos...
Vinck et al. develop new statistical techniques for the analysis of electrophysiological brain data,...
Gamma frequency rhythms have been implicated in numerous studies for their role in healthy and abnor...
Local gamma-band (~30-100Hz) oscillations in the brain, produced by feedback inhibition on a charact...
Gamma-frequency oscillations (∼30-100 Hz) in cortical network activity have been proposed to provide...
Despite the widespread use of EEGs to measure the large-scale dynamics of the human brain, little is...
SummaryNeuronal oscillations in the gamma band (30–80 Hz) have been suggested to play a central role...