Functional magnetic resonance imaging (fMRI) is used widely to determine the spatial layout of brain activation associated with specific cognitive tasks at a spatial scale of millimeters. Recent methodological improvements have made it possible to determine the latency and temporal structure of the activation at a temporal scale of few hundreds of milliseconds. Despite the sluggishness of the hemodynamic response, fMRI can detect a cascade of neural activations — the signature of a sequence of cognitive processes. Decomposing the processing into stages is greatly aided by measuring intermediate responses. By combining event-related fMRI and behavioral measurement in experiment and analysis, trial-by-trial temporal links can be established b...
The timeline of brain‐wide neural activity relative to a behavioral event is crucial when decoding t...
While traditionally quite distinct, functional neuroimaging (e.g. functional magnetic resonance imag...
Conventional fMRI analyses assess the summary of temporal information in terms of the coefficients o...
Functional magnetic resonance imaging (fMRI) is used widely to determine the spatial layout of brain...
We used the combination of functional magnetic resonance imaging and event-related potentials to dec...
International audienceIdentifying the sequence of computations which constitute a cognitive task is ...
We used the combination of functional magnetic resonance imaging and event-related potentials to dec...
Functional Magnetic Resonance Imaging is a brain im-aging technique that allows the observation of b...
Identifying the sequence of computations which constitute a cognitive task is a fundamental problem ...
Mental imagery, the generation and manipulation of mental representations in the absence of sensory ...
Most models of information processing in the brain assume that cognitive tasks can be broken down ...
We used the combination of functional magnetic resonance imaging and event-related potentials to dec...
Mental imagery, the generation and manipulation of mental representations in the absence of sensory ...
Mental imagery, the generation and manipulation of mental representations in the absence of sensory ...
The timeline of brain‐wide neural activity relative to a behavioral event is crucial when decoding t...
While traditionally quite distinct, functional neuroimaging (e.g. functional magnetic resonance imag...
Conventional fMRI analyses assess the summary of temporal information in terms of the coefficients o...
Functional magnetic resonance imaging (fMRI) is used widely to determine the spatial layout of brain...
We used the combination of functional magnetic resonance imaging and event-related potentials to dec...
International audienceIdentifying the sequence of computations which constitute a cognitive task is ...
We used the combination of functional magnetic resonance imaging and event-related potentials to dec...
Functional Magnetic Resonance Imaging is a brain im-aging technique that allows the observation of b...
Identifying the sequence of computations which constitute a cognitive task is a fundamental problem ...
Mental imagery, the generation and manipulation of mental representations in the absence of sensory ...
Most models of information processing in the brain assume that cognitive tasks can be broken down ...
We used the combination of functional magnetic resonance imaging and event-related potentials to dec...
Mental imagery, the generation and manipulation of mental representations in the absence of sensory ...
Mental imagery, the generation and manipulation of mental representations in the absence of sensory ...
The timeline of brain‐wide neural activity relative to a behavioral event is crucial when decoding t...
While traditionally quite distinct, functional neuroimaging (e.g. functional magnetic resonance imag...
Conventional fMRI analyses assess the summary of temporal information in terms of the coefficients o...