Neuronal oscillations at nearby sites in the brain often show phase relations that are consistent across time, yet diverse across space. We discuss recent demonstrations of this phase relation diversity, and show that, contrary to earlier beliefs, this diversity is a general property of oscillations that is neither restricted to low-frequency oscillations nor to periods outside of stimulus processing. Arguing for the computational relevance of phase relation diversity, we discuss that it can be modulated by sensory and motor events, and put forward the idea that phase relation diversity may support effective neuronal communication by (i) enhancing selectivity and (ii) allowing for the concurrent segregation of multiple information streams
Gamma-band synchronization coordinates brief periods of excitability in oscillating neuronal populat...
Neuronal interactions form the basis for our brain function, and oscillations and synchrony are the ...
Recently, it has been suggested that effective interactions between two neuronal populations are sup...
Neuronal oscillations at nearby sites in the brain often show phase relations that are consistent ac...
Neuronal oscillations at nearby sites in the brain often show phase relations that are consistent ac...
Contains fulltext : 139811.pdf (publisher's version ) (Open Access)Neural oscillat...
Neural oscillations have emerged as one of the major electrophysiological phenomena investigated in ...
Groups of neurons tend to synchronize in distinct frequency bands. Within a given frequency band, sy...
Phase consistent neuronal oscillations are ubiquitous in electrophysiological recordings, and they m...
International audienceUnraveling how brain regions communicate is crucial for understanding how the ...
Contains fulltext : 34457.pdf (publisher's version ) (Closed access)Brain processi...
Brain processing depends on the interactions between neuronal groups. Those interactions are governe...
Coupled oscillations are hypothesized to organize the processing of information across distributed b...
Contains fulltext : 99195.pdf (publisher's version ) (Open Access)Spatially distri...
Cognitive functions likely require that the routes of neural communication can be flexibly modulated...
Gamma-band synchronization coordinates brief periods of excitability in oscillating neuronal populat...
Neuronal interactions form the basis for our brain function, and oscillations and synchrony are the ...
Recently, it has been suggested that effective interactions between two neuronal populations are sup...
Neuronal oscillations at nearby sites in the brain often show phase relations that are consistent ac...
Neuronal oscillations at nearby sites in the brain often show phase relations that are consistent ac...
Contains fulltext : 139811.pdf (publisher's version ) (Open Access)Neural oscillat...
Neural oscillations have emerged as one of the major electrophysiological phenomena investigated in ...
Groups of neurons tend to synchronize in distinct frequency bands. Within a given frequency band, sy...
Phase consistent neuronal oscillations are ubiquitous in electrophysiological recordings, and they m...
International audienceUnraveling how brain regions communicate is crucial for understanding how the ...
Contains fulltext : 34457.pdf (publisher's version ) (Closed access)Brain processi...
Brain processing depends on the interactions between neuronal groups. Those interactions are governe...
Coupled oscillations are hypothesized to organize the processing of information across distributed b...
Contains fulltext : 99195.pdf (publisher's version ) (Open Access)Spatially distri...
Cognitive functions likely require that the routes of neural communication can be flexibly modulated...
Gamma-band synchronization coordinates brief periods of excitability in oscillating neuronal populat...
Neuronal interactions form the basis for our brain function, and oscillations and synchrony are the ...
Recently, it has been suggested that effective interactions between two neuronal populations are sup...