Recollection and familiarity: Examining controversial assumptions and new directions
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TLDR
A simple quantitative model of recognition memory (i.e., the dual‐process signal detection model) is described that has been useful in integrating findings from a broad range of cognitive studies, and that is now being applied in a growing number of neuroscientific investigations of memory.Abstract:
It is well accepted that recognition memory reflects the contribution of two separable memory retrieval processes, namely recollection and familiarity. However, fundamental questions remain regarding the functional nature and neural substrates of these processes. In this article, we describe a simple quantitative model of recognition memory (i.e., the dual-process signal detection model) that has been useful in integrating findings from a broad range of cognitive studies, and that is now being applied in a growing number of neuroscientific investigations of memory. The model makes several strong assumptions about the behavioral nature and neural substrates of recollection and familiarity. A review of the literature indicates that these assumptions are generally well supported, but that there are clear boundary conditions in which these assumptions break down. We argue that these findings provide important insights into the operation of the processes underlying recognition. Finally, we consider how the dual-process approach relates to recent neuroanatomical and computational models and how it might be integrated with recent findings concerning the role of medial temporal lobe regions in other cognitive functions such as novelty detection, perception, implicit memory and short-term memory.read more
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References
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A process dissociation framework: Separating automatic from intentional uses of memory
TL;DR: In this article, a process dissociation procedure is proposed to separate the contributions of different types of processes to performance of a task, rather than equating processes with tasks, by separating automatic from intentional forms of processing.
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The Nature of Recollection and Familiarity: A Review of 30 Years of Research
TL;DR: For instance, the authors found that recall is more sensitive than familiarity to response speeding, division of attention, generation, semantic encoding, the effects of aging, and the amnestic effects of benzodiazepines, while familiarity is less sensitive to shifts in response criterion, fluency manipulations, forgetting over short retention intervals, and some perceptual manipulations.
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Recognizing: The judgment of previous occurrence.
TL;DR: In this paper, a dual process model is proposed to detect familiarity and the utilization of retrieval mechanisms as additive and separate processes, and the model is extended to the word frequency effect and to the recognition difficulties of amnesic patients.
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The Medial Temporal Lobe and Recognition Memory
TL;DR: Evidence from neuropsychological, neuroimaging, and neurophysiological studies of humans, monkeys, and rats indicates that different subregions of the MTL make distinct contributions to recollection and familiarity; the data suggest that the hippocampus is critical for recollection but not familiarity.