Frequency effects on memory: A resource-limited theory.

Popov, Vencislav; Reder, Lynne M.

doi:10.1037/rev0000161

Cited by 110 publications

(184 citation statements)

References 205 publications

(682 reference statements)

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“…Normative word frequency has played a key role in empirical research and theoretical development on human memory (Clark, 1992;Glanzer & Bowles, 1976;Hulme, 2003;Mandler, Goodman, & Wilkes-Gibbs, 1982;Popov & Reder, 2018). Its prominence is due to the fact that it can either facilitate or impair memory performance depending on the nature of the study task, the test, and the details of the study sequence.…”

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confidence: 99%

“…The intricate effects of word frequency described above have led to the development, rejection, and revision of multiple memory models (Glanzer & Adams, 1990;McClelland & Chappell, 1998;Reder et al, 2000;Shiffrin & Steyvers, 1997). One memory model, the Source of Activation Confusion model (SAC; Popov & Reder, 2018;Reder et al, 2000), has proposed that these effects can be captured with a few simple assumptions: 1) memory formation depletes a limited working memory resource that recovers gradually over time; 2) HF words have stronger representations in memory compared to LF words; 3) the amount of resources required to process an item is an inverse function of its current strength 1 . As a result, processing LF words depletes more resources than do HF words.…”

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confidence: 99%

“…As a result, processing LF words depletes more resources than do HF words. This model captures most word-frequency effects, including the interaction with list-composition, divided attention, presentation rate and age of participants (Popov & Reder, 2018). Despite SAC's success in modeling word-frequency effects, one unresolved question concerns what happens when there are insufficient resources to store a new item in memory.…”

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confidence: 99%

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Memory resources recover gradually over time: The effects of word-frequency, presentation rate and list-composition on binding errors and mnemonic precision in source memory

Popov¹,

So²,

Reder³

2019

Preprint

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Normative word frequency has played a key role in the study of human memory, but there is little agreement as to the mechanism responsible for its effects. To determine whether word frequency affects binding probability or memory precision, we examined working memory for spatial positions of words. Each of three experiments included 300 trials in which five words were presented sequentially around an invisible circle followed by one of those words shown in the middle of the circle as a probe to test its location. Participants had to click on the associated location and the degree of error around the circle was the dependent measure. Across experiments we varied word frequency, presentation rate and the proportion of low frequency words on each trial. A mixture model dissociated memory precision, binding failure and guessing rates from the continuous distribution of errors. On trials that contained only low- or high-frequency words, low-frequency words lead to a greater degree of error in recalling the associated location. This was due to a higher word-location binding failure and not due to differences in memory precision or guessing rates. Slowing down the presentation rate eliminated the word frequency effect by reducing binding failures for low-frequency words. Mixing frequencies in a single trial hurt high-frequency and helped low-frequency words, but frequency composition and presentation rate did not interact. These findings support the idea that low-frequency words require more resources for binding and that the binding fails when these resources are insufficient.

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confidence: 99%

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confidence: 99%

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confidence: 99%

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Memory resources recover gradually over time: The effects of word-frequency, presentation rate and list-composition on binding errors and mnemonic precision in source memory

Popov¹,

So²,

Reder³

2019

Preprint

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“…The synonym judgment task used at encoding may have worked to a disadvantage: as abstract concepts tend to have more diverse meanings, synonym judgments may be more difficult for abstract concepts, as it must be determined whether any particular sense of the word is a synonym to the target (Hoffman et al, 2013). Thus, an abstract concept like decision when paired with judgment might leave fewer resources available to process immediately available relational information (i.e., in the present study, the box color or the voice) because we must search for a context in which decision and judgment are in fact synonyms (a recent computational model makes this prediction; Popov & Reder, 2018). Relatedly, if abstract concepts are simply more difficult to process, and the context does not help with accessing the meaning of the word, it could render the immediate context less salient.…”

Section: Limitationsmentioning

confidence: 90%

Abstract concepts and the suppression of arbitrary episodic context

Davis¹,

Paz‐Alonso²,

Altmann³

et al. 2019

Preprint

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Context is important for abstract concept processing, but a mechanism by which it is encoded and re-instantiated with concepts is unclear. We used a source-memory paradigm to determine whether episodic context is attended more when processing abstract concepts. Experiment 1 presented abstract and concrete words in colored boxes at encoding. At test, memory for the frame color was worse for abstract concepts, counter to our predictions. Experiment 2 showed the same pattern when colored boxes were replaced with male and female voices. Experiment 3 presented words from encoding in the same or different box color to determine whether a greater advantage is conferred by context retention in memory for abstract concepts. There was instead a disadvantage: abstract concepts were less likely to be identified when the encoding color was retained at test. Concrete concepts are more sensitive to simple episodic detail, and in abstract concepts, arbitrary context may be suppressed.

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“…As a positive control we will analyse the effect on recall of serial position of a word within a trial. Serial position effects are among the most robust effects in working memory research (see Popov & Reder, 2019 for a recent review). This check is orthogonal to our main hypothesis and merely serves as an outcome-neutral criterion to verify that we can replicate a pervasive effect in working memory tasks and that participants were engaged.…”

Section: Quality Checksmentioning

confidence: 99%

Does the motor system functionally contribute to keeping words in working memory? A pre-registered replication of Shebani and Pulvermüller (2013, Cortex)

Montero-Melis¹,

Paridon²,

Ostarek³

et al. 2019

Preprint

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Increasing evidence implicates the sensorimotor systems with high-level cognition, but the extent to which these systems play a functional role remains debated. Using an elegant design, Shebani and Pulvermüller (2013) reported that carrying out a demanding rhythmic task with the hands led to selective impairment of working memory for hand-related words (e.g., clap), while carrying out the same task with the feet led to selective memory impairment for foot-related words (e.g., kick). This striking double dissociation constitutes strong evidence for an embodied account of working memory, a system that has received scarce attention in the embodiment literature. However, the original study was likely underpowered and used suboptimal statistical analyses, raising questions about the robustness of the results. In fact, our Bayesian reanalysis with a more appropriate model yields inconclusive evidence for the effect (BF10 = 1.7). To re-examine this seminal finding, we here attempt an appropriately powered, fully pre-registered replication of the original study, following a sequential design with a maximal participant sample size over seven times that of the original (108 vs. 15). We will analyse the results with Bayesian generalized mixed models and use Bayes factors to quantify the evidence in support of the effect predicted by theories of embodied cognition.

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Frequency effects on memory: A resource-limited theory.

Cited by 110 publications

References 205 publications

Memory resources recover gradually over time: The effects of word-frequency, presentation rate and list-composition on binding errors and mnemonic precision in source memory

Memory resources recover gradually over time: The effects of word-frequency, presentation rate and list-composition on binding errors and mnemonic precision in source memory

Abstract concepts and the suppression of arbitrary episodic context

Does the motor system functionally contribute to keeping words in working memory? A pre-registered replication of Shebani and Pulvermüller (2013, Cortex)

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