SummaryFormal computational models of human memory posit a central role of feature representations in episodic memory encoding and retrieval [1–4]. Correspondingly, fMRI studies have found that, in addition to activity level [5, 6], the neural activation pattern similarity across repetitions (i.e., self-similarity) was greater for subsequently remembered than forgotten items [7–9]. This self-similarity has been suggested to reflect pattern reinstatement due to study-phase retrieval [7, 10, 11]. However, the low temporal resolution of fMRI measures could determine neither the temporal precision of study-phase reinstatement nor the processing stage at which the reinstatement supported subsequent memory [12]. Meanwhile, although self-similarit...
Similarity is known to affect memory. Visual item recognition refers to tasks where participants stu...
When we remember an event, the content of that memory is represented across the brain. Detailed memo...
UnlabelledThe neural processes giving rise to human memory strength signals remain poorly understood...
Formal computational models of human memory posit a central role of feature representations in episo...
One central goal in cognitive neuroscience of learning and memory is to characterize the neural proc...
Repeated study improves memory, but the underlying neural mechanisms of this improvement are not wel...
Spaced learning has been shown consistently to benefit memory compared with massed learning, yet the...
Electrophysiological recordings in rodents and humans show that the contents of spatial and episodic...
SummaryExperiences unfold over time, but little is known about the mechanisms that support the forma...
Self-referential processing involves a complex set of cognitive functions, posing challenges to deli...
<div><p>During episodic memory encoding, elaborative cognitive processing can improve later recall o...
During episodic memory encoding, elaborative cognitive processing can improve later recall or recogn...
Theoretical models of episodic memory have proposed that retrieval depends on interactions between t...
Long-term, episodic memory processing is supposed to involve the prefrontal cortex asymmetrically. H...
Long-term, episodic memory processing is supposed to involve the prefrontal cortex asymmetrically. H...
Similarity is known to affect memory. Visual item recognition refers to tasks where participants stu...
When we remember an event, the content of that memory is represented across the brain. Detailed memo...
UnlabelledThe neural processes giving rise to human memory strength signals remain poorly understood...
Formal computational models of human memory posit a central role of feature representations in episo...
One central goal in cognitive neuroscience of learning and memory is to characterize the neural proc...
Repeated study improves memory, but the underlying neural mechanisms of this improvement are not wel...
Spaced learning has been shown consistently to benefit memory compared with massed learning, yet the...
Electrophysiological recordings in rodents and humans show that the contents of spatial and episodic...
SummaryExperiences unfold over time, but little is known about the mechanisms that support the forma...
Self-referential processing involves a complex set of cognitive functions, posing challenges to deli...
<div><p>During episodic memory encoding, elaborative cognitive processing can improve later recall o...
During episodic memory encoding, elaborative cognitive processing can improve later recall or recogn...
Theoretical models of episodic memory have proposed that retrieval depends on interactions between t...
Long-term, episodic memory processing is supposed to involve the prefrontal cortex asymmetrically. H...
Long-term, episodic memory processing is supposed to involve the prefrontal cortex asymmetrically. H...
Similarity is known to affect memory. Visual item recognition refers to tasks where participants stu...
When we remember an event, the content of that memory is represented across the brain. Detailed memo...
UnlabelledThe neural processes giving rise to human memory strength signals remain poorly understood...