710 research outputs found
Articulatory loop explanations of memory span and pronunciation rate correspondences: a cautionary note
In recent years, a number of memory span findings have been attributed to the operation of an articulatory loop (Baddeley & Hitch, 1974). These attributions have been made on the basis of finding a correspondence between span differences and pronunciation rate differences. This experiment explored articulatory loop explanations for two material effects in memory span: the word-frequency effect (span for high-frequency words is larger than span for low-frequency words) and the word-class effect (span for function words is smaller than span for either nouns or adjectives). The results indicate that it is possible to obtain span differences without finding corresponding pronunciation rate differences. Moreover, span differences were as pronounced under articulatory suppression conditions as they were under rehearsal conditions. Both of these results limit the generality of articulatory loop explanations of memory span
Creating proactive interference in immediate recall: building a dog from a dart, a mop and a fig
[Abstract]: Phonemic codes are accorded a privileged role in most current models of immediate serial recall, although their effects are apparent in short-term proactive interference (PI) effects as well. The current research looks at how assumptions concerning distributed representation and distributed storage involving both semantic and phonemic codes might be operationalized to produce PI in a short-term cued recall task. The four experiments reported here attempted to generate the phonemic characteristics of a non-rhyming, interfering foil from unrelated filler items in the same list. PI was observed when a rhyme of the foil was studied or when the three phonemes of the foil were distributed across three studied filler items. The results suggest that items in short-term memory are stored in terms of feature bundles and that all items are simultaneously available at retrieval
A Tale of Two Impostors: SN2002kg and SN1954J in NGC 2403
We describe new results on two supernova impostors in NGC 2403, SN 1954J(V12)
and SN 2002kg(V37). For the famous object SN 1954J we combine four critical
observations: its current SED, its Halpha emission line profile, the Ca II
triplet in absorption in its red spectrum, and the brightness compared to its
pre-event state. Together these strongly suggest that the survivor is now a hot
supergiant with T ~ 20000 K, a dense wind, substantial circumstellar
extinction, and a G-type supergiant companion. The hot star progenitor of V12's
giant eruption was likely in the post-red supergiant stage and had already shed
a lot of mass. V37 is a classical LBV/S Dor variable. Our photometry and
spectra observed during and after its eruption show that its outburst was an
apparent transit on the HR Diagram due to enhanced mass loss and the formation
of a cooler, dense wind. V37 is an evolved hot supergiant at ~10^6 Lsun with a
probable initial mass of 60 -80 Msun.Comment: To appear in the Astrophysical Journa
Category-length and category-strength effects using images of scenes
Global matching models have provided an important theoretical framework for recognition memory. Key predictions of this class of models are that (1) increasing the number of occurrences in a study list of some items affects the performance on other items (list-strength effect) and that (2) adding new items results in a deterioration of performance on the other items (list-length effect). Experimental confirmation of these predictions has been difficult, and the results have been inconsistent. A review of the existing literature, however, suggests that robust length and strength effects do occur when sufficiently similar hard-to-label items are used. In an effort to investigate this further, we had participants study lists containing one or more members of visual scene categories (bathrooms, beaches, etc.). Experiments 1 and 2 replicated and extended previous findings showing that the study of additional category members decreased accuracy, providing confirmation of the category-length effect. Experiment 3 showed that repeating some category members decreased the accuracy of nonrepeated members, providing evidence for a category-strength effect. Experiment 4 eliminated a potential challenge to these results. Taken together, these findings provide robust support for global matching models of recognition memory. The overall list lengths, the category sizes, and the number of repetitions used demonstrated that scene categories are well-suited to testing the fundamental assumptions of global matching models. These include (A) interference from memories for similar items and contexts, (B) nondestructive interference, and (C) that conjunctive information is made available through a matching operation
Behavioral and Neural Effects of Familiarization on Object-Background Associations
Associative memory is the ability to link together components of stimuli. Previous evidence
suggests that prior familiarization with study items affects the nature of the association
between stimuli. More specifically, novel stimuli are learned in a more context-dependent
fashion than stimuli that have been encountered previously without the current context.
In the current study, we first acquired behavioral data from 62 human participants to
conceptually replicate this effect. Participants were instructed to memorize multiple objectscene pairs (study phase) and were then tested on their recognition memory for the objects
(test phase). Importantly, 1 day prior, participants had been familiarized with half of the
object stimuli. During the test phase, the objects were either matched to the same scene
as during study (intact pair) or swapped with a different object’s scene (rearranged pair).
Our results conceptually replicated the context-dependency effect by showing that
breaking up a studied object-context pairing is more detrimental to object recognition
performance for non-familiarized objects than for familiarized objects. Second, we used
functional magnetic resonance imaging (fMRI) to determine whether medial temporal lobe
encoding-related activity patterns are reflective of this familiarity-related context effect.
Data acquired from 25 human participants indicated a larger effect of familiarization on
encoding-related hippocampal activity for objects presented within a scene context
compared to objects presented alone. Our results showed that both retrieval-related
accuracy patterns and hippocampal activation patterns were in line with a familiarizationmediated context-dependency effec
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