The brain produces rhythms in a variety of frequency bands. Some are likely by-products of neuronal processes; others are thought to be top-down. Produced entirely naturally, these rhythms have clearly recognizable beats, but they are very far from periodic in the sense of mathematics. The signals are broad-band, episodic, wandering in amplitude and frequency; the rhythm comes and goes, degrading and regenerating. Gamma rhythms, in particular, have been studied by many authors in computational neuroscience, using reduced models as well as networks of hundreds to thousands of integrate-and-fire neurons. All of these models captured successfully the oscillatory nature of gamma rhythms, but the irregular character of gamma in reduced models ha...
AbstractMacroscopic models of brain networks typically incorporate assumptions regarding the charact...
Phase-amplitude coupling (PAC), the phenomenon where the amplitude of a high frequency oscillation i...
Ever since Hans Berger recorded the first human EEGs in humans and observed large, rhythmic 8 Hz fie...
An original simple neural mass model of a population of neurons has been used to investigate the ori...
Gamma frequency oscillations (25–140 Hz), observed in the neural activities within many brain region...
Gamma frequency oscillations (25–140 Hz), observed in the neural activities within many brain region...
Neural oscillations are electrical activities of the brain measurable at different frequencies. This...
Gamma rhythms (30-100 Hz) are an extensively studied synchronous brain state responsible for a numbe...
Gamma frequency rhythms have been implicated in numerous studies for their role in healthy and abnor...
Macroscopic models of brain networks typically incorporate assumptions regarding the characteristics...
Neuronal oscillations at various frequency bands play an important role in neuronal information proc...
Contains fulltext : 250193.pdf (Publisher’s version ) (Open Access
Gamma rhythms (30–100 Hz) are an extensively studied synchronous brain state responsible for a numbe...
Fast oscillations and in particular gamma-band oscillation (20-80 Hz) are commonly observed during b...
Local gamma-band (~30-100Hz) oscillations in the brain, produced by feedback inhibition on a charact...
AbstractMacroscopic models of brain networks typically incorporate assumptions regarding the charact...
Phase-amplitude coupling (PAC), the phenomenon where the amplitude of a high frequency oscillation i...
Ever since Hans Berger recorded the first human EEGs in humans and observed large, rhythmic 8 Hz fie...
An original simple neural mass model of a population of neurons has been used to investigate the ori...
Gamma frequency oscillations (25–140 Hz), observed in the neural activities within many brain region...
Gamma frequency oscillations (25–140 Hz), observed in the neural activities within many brain region...
Neural oscillations are electrical activities of the brain measurable at different frequencies. This...
Gamma rhythms (30-100 Hz) are an extensively studied synchronous brain state responsible for a numbe...
Gamma frequency rhythms have been implicated in numerous studies for their role in healthy and abnor...
Macroscopic models of brain networks typically incorporate assumptions regarding the characteristics...
Neuronal oscillations at various frequency bands play an important role in neuronal information proc...
Contains fulltext : 250193.pdf (Publisher’s version ) (Open Access
Gamma rhythms (30–100 Hz) are an extensively studied synchronous brain state responsible for a numbe...
Fast oscillations and in particular gamma-band oscillation (20-80 Hz) are commonly observed during b...
Local gamma-band (~30-100Hz) oscillations in the brain, produced by feedback inhibition on a charact...
AbstractMacroscopic models of brain networks typically incorporate assumptions regarding the charact...
Phase-amplitude coupling (PAC), the phenomenon where the amplitude of a high frequency oscillation i...
Ever since Hans Berger recorded the first human EEGs in humans and observed large, rhythmic 8 Hz fie...