Associative learning requires mapping between complex stimuli and behavioural responses. When multiple stimuli are involved, conditional associative learning is a gradual process with learning based on trial and error. It is established that a distributed network of regions track associative learning, however the role of neural oscillations in human learning remains less clear. Here we used scalp EEG to test how neural oscillations change during learning of arbitrary visuo-motor associations. Participants learned to associative 48 different abstract shapes to one of four button responses through trial and error over repetitions of the shapes. To quantify how well the associations were learned for each trial, we used a state-space computatio...
Abstract Background We investigated how temporal context affects the learning of arbitrary visuo-mot...
Several studies have shown that attention and perception can depend upon the phase of ongoing neural...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Associative learning involves the encoding of relationships between events, for example, between two...
Numerous studies seek to understand the role of oscillatory synchronization in cognition. This probl...
Primates can give behavioral responses on the basis of arbitrary, context-dependent rules. When sens...
Many theoretical models suggest that neural oscillations play a role in learning or retrieval of tem...
Many theoretical models suggest that neural oscillations play a role in learning or retrieval of tem...
Neuronal processes underlying the formation of new associations in the human brain are not yet well ...
Learning and memory are highly complex and adaptive cognitive processes of the human brain. The pres...
We apply to oscillatory networks a class of learning rules in which synaptic weights change proporti...
BACKGROUND: How oscillatory brain rhythms alone, or in combination, influence cortical information p...
The retrosplenial cortex, located in the posterior midline of the brain, is a small but important re...
Humans continuously learn new information. Here, we examined the temporal brain dynamics of explicit...
Abstract Background We investigated how temporal context affects the learning of arbitrary visuo-mot...
Several studies have shown that attention and perception can depend upon the phase of ongoing neural...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...
Associative learning involves the encoding of relationships between events, for example, between two...
Numerous studies seek to understand the role of oscillatory synchronization in cognition. This probl...
Primates can give behavioral responses on the basis of arbitrary, context-dependent rules. When sens...
Many theoretical models suggest that neural oscillations play a role in learning or retrieval of tem...
Many theoretical models suggest that neural oscillations play a role in learning or retrieval of tem...
Neuronal processes underlying the formation of new associations in the human brain are not yet well ...
Learning and memory are highly complex and adaptive cognitive processes of the human brain. The pres...
We apply to oscillatory networks a class of learning rules in which synaptic weights change proporti...
BACKGROUND: How oscillatory brain rhythms alone, or in combination, influence cortical information p...
The retrosplenial cortex, located in the posterior midline of the brain, is a small but important re...
Humans continuously learn new information. Here, we examined the temporal brain dynamics of explicit...
Abstract Background We investigated how temporal context affects the learning of arbitrary visuo-mot...
Several studies have shown that attention and perception can depend upon the phase of ongoing neural...
Confronted with a rich sensory environment, the brain must learn statistical regularities across sen...