Neural oscillations are ubiquitous measurements of cognitive processes and dynamic routing and gating of information. The fundamental and so far unresolved problem for neuroscience remains to understand how oscillatory activity in the brain codes information for human cognition. In a biologically relevant cognitive task, we instructed six human observers to categorize facial expressions of emotion while we measured the observers' EEG. We combined state-of-the-art stimulus control with statistical information theory analysis to quantify how the three parameters of oscillations (i.e., power, phase, and frequency) code the visual information relevant for behavior in a cognitive task. We make three points: First, we demonstrate that phase codes...
In response to Voelker et al. (this issue), we argue for a wide array of neural oscillatory mechanis...
Our capacity to quickly adapt to changing cognitive demands fundamentally relies on the ability of o...
SummaryAlthough we have the impression that visual information flows continuously from our sensory c...
Neural oscillations are ubiquitous measurements of cognitive processes and dynamic routing and gatin...
Do neuronal oscillations play a causal role in brain function? In a study in this issue of PLOS Biol...
Cognitive neuroscience assumes a correspondence between specific spatio-temporal patterns of neural ...
We explore the contribution made by oscillatory, synchronous neural activity to representation in th...
Brain activity is strongly oscillatory: the collective firing of populations of neurons waxes and wa...
Brain decoding can predict visual perception from non-invasive electrophysiological data by combinin...
Numerous theories propose a key role for brain oscillations in visual perception. Most of these theo...
We study how stimulus information can be represented in the dynamical signatures of an oscillatory m...
This paper describes mathematical models that explain how neuronal networks produce oscillations obs...
Oscillations are ubiquitous in electrical recordings of brain activity. While the amplitude of ongoi...
Common everyday activities—riding a bike to work, taking notes on a lecture, or choosing food at the...
Since early recordings of the human brain, rhythmic electric fields have been observed emanating fro...
In response to Voelker et al. (this issue), we argue for a wide array of neural oscillatory mechanis...
Our capacity to quickly adapt to changing cognitive demands fundamentally relies on the ability of o...
SummaryAlthough we have the impression that visual information flows continuously from our sensory c...
Neural oscillations are ubiquitous measurements of cognitive processes and dynamic routing and gatin...
Do neuronal oscillations play a causal role in brain function? In a study in this issue of PLOS Biol...
Cognitive neuroscience assumes a correspondence between specific spatio-temporal patterns of neural ...
We explore the contribution made by oscillatory, synchronous neural activity to representation in th...
Brain activity is strongly oscillatory: the collective firing of populations of neurons waxes and wa...
Brain decoding can predict visual perception from non-invasive electrophysiological data by combinin...
Numerous theories propose a key role for brain oscillations in visual perception. Most of these theo...
We study how stimulus information can be represented in the dynamical signatures of an oscillatory m...
This paper describes mathematical models that explain how neuronal networks produce oscillations obs...
Oscillations are ubiquitous in electrical recordings of brain activity. While the amplitude of ongoi...
Common everyday activities—riding a bike to work, taking notes on a lecture, or choosing food at the...
Since early recordings of the human brain, rhythmic electric fields have been observed emanating fro...
In response to Voelker et al. (this issue), we argue for a wide array of neural oscillatory mechanis...
Our capacity to quickly adapt to changing cognitive demands fundamentally relies on the ability of o...
SummaryAlthough we have the impression that visual information flows continuously from our sensory c...