Your search keyword '"Oberauer, Klaus' showing total 44 results

1. The Hebb repetition effect in complex span tasks: Evidence for a shared learning mechanism with simple span tasks

Author

70253242, Araya, Claudia, Oberauer, Klaus, Saito, Satoru, 70253242, Araya, Claudia, Oberauer, Klaus, and Saito, Satoru

Abstract

The Hebb repetition effect on serial-recall task refers to the improvement in the accuracy of recall of a repeated list (e.g., repeated in every 3 trials) over random non-repeated lists. Previous research has shown that both temporal position and neighboring items need to be the same on each repetition list for the Hebb repetition effect to occur, suggesting chunking as one of its underlying mechanisms. Accordingly, one can expect absence of the Hebb repetition effect in a complex span task, given that the sequence is interrupted by distractors. Nevertheless, one study by Oberauer, Jones, and Lewandowsky (2015, Memory & Cognition, 43[6], 852–865) showed evidence of the Hebb repetition effect in a complex span task. Throughout four experiments, we confirmed the Hebb repetition effect in complex span tasks, even when we included distractors in both encoding and recall phases to avoid any resemblance to a simple span task and minimized the possibility of chunking. Results showed that the Hebb repetition effect was not affected by the distractors during encoding and recall. A transfer cycle analysis showed that the long-term knowledge acquired in the complex span task can be transferred to a simple span task. These findings provide the first insights on the mechanism behind the Hebb repetition effect in complex span tasks; it is at least partially based on the same mechanism that improves recall performance by repetition in simple span tasks.

Published

2022

2. The Hebb repetition effect in complex span tasks: Evidence for a shared learning mechanism with simple span tasks.

Author

Araya, Claudia, Oberauer, Klaus, and Saito, Satoru

Subjects

*MEMORY, *DIGITAL image processing, *TASK performance, *LEARNING strategies, *SHORT-term memory, *INTELLECT

Abstract

The Hebb repetition effect on serial-recall task refers to the improvement in the accuracy of recall of a repeated list (e.g., repeated in every 3 trials) over random non-repeated lists. Previous research has shown that both temporal position and neighboring items need to be the same on each repetition list for the Hebb repetition effect to occur, suggesting chunking as one of its underlying mechanisms. Accordingly, one can expect absence of the Hebb repetition effect in a complex span task, given that the sequence is interrupted by distractors. Nevertheless, one study by Oberauer, Jones, and Lewandowsky (2015, Memory & Cognition, 43[6], 852–865) showed evidence of the Hebb repetition effect in a complex span task. Throughout four experiments, we confirmed the Hebb repetition effect in complex span tasks, even when we included distractors in both encoding and recall phases to avoid any resemblance to a simple span task and minimized the possibility of chunking. Results showed that the Hebb repetition effect was not affected by the distractors during encoding and recall. A transfer cycle analysis showed that the long-term knowledge acquired in the complex span task can be transferred to a simple span task. These findings provide the first insights on the mechanism behind the Hebb repetition effect in complex span tasks; it is at least partially based on the same mechanism that improves recall performance by repetition in simple span tasks. [ABSTRACT FROM AUTHOR]

Published

2022

3. Why does the probe value effect emerge in working memory? Examining the biased attentional refreshing account.

Author

Atkinson, Amy L., Oberauer, Klaus, Allen, Richard J, and Souza, Alessandra S.

Subjects

*SHORT-term memory, *COLOR wheels, *VISUAL memory

Abstract

People are able to prioritize more valuable information in working memory. The current study examined whether this value effect is due to the items of greater value being refreshed more than lower-value items during maintenance. To assess this possibility, we combined a probe value manipulation with a guided-refreshing procedure. Arrays of colored shapes were presented, and after a brief delay, participants reported the color of one randomly probed shape on a continuous color wheel. To manipulate probe value, one item was indicated as more valuable than the rest prior to encoding (i.e., worth more notional points), or all items were indicated as equally valuable. To guide refreshing, in some trials, two arrows were presented during maintenance, each arrow cueing the spatial location of one item. Participants were told to "think of" (i.e., refresh) the cued item. If value boosts are driven by attentional refreshing, cueing an item to be refreshed should enhance performance for items that are of low or equal value, but not items of high value, as these items would be refreshed regardless of the cue. This pattern of outcomes was observed, providing support for the hypothesis that attentional refreshing at least partially accounts for probe value effects in working memory. [ABSTRACT FROM AUTHOR]

Published

2022

4. Is long-term memory used in a visuo-spatial change-detection paradigm?

Author

Goecke, Benjamin and Oberauer, Klaus

Subjects

*LONG-term memory, *VERBAL memory, *VISUAL memory, *SHORT-term memory, *SPATIAL memory, *REPETITION (Learning process)

Abstract

In tests of working memory with verbal or spatial materials, repeating the same memory sets across trials leads to improved memory performance. This well-established "Hebb repetition effect" could not be shown for visual materials in previous research. The absence of the Hebb effect can be explained in two ways: Either persons fail to acquire a long-term memory representation of the repeated memory sets, or they acquire such long-term memory representations, but fail to use them during the working memory task. In two experiments (N1 = 18 and N2 = 30), we aimed to decide between these two possibilities by manipulating the long-term memory knowledge of some of the memory sets used in a change-detection task. Before the change-detection test, participants learned three arrays of colors to criterion. The subsequent change-detection test contained both previously learned and new color arrays. Change detection performance was better on previously learned compared with new arrays, showing that long-term memory is used in change detection. [ABSTRACT FROM AUTHOR]

Published

2021

5. Intelligence test items varying in capacity demands cannot be used to test the causality of working memory capacity for fluid intelligence.

Author

Frischkorn, Gidon T. and Oberauer, Klaus

Subjects

*INTELLIGENCE tests, *FLUID intelligence, *SHORT-term memory, *SUPPLY & demand, *LATENT variables, *PSYCHOMETRICS

Abstract

There is a strong relationship between fluid intelligence and working memory capacity (WMC). Yet, the cognitive mechanisms underlying this relationship remain elusive. The capacity hypothesis states that this relationship is due to limitations in the amount of information that can be stored and held active in working memory. Previous research aimed at testing the capacity hypothesis assumed that it implies stronger relationships of intelligence test performance with WMC for test items with higher capacity demands. The present article addresses this assumption through simulations of three theoretical models implementing the capacity hypothesis while systematically varying different psychometric variables. The results show that almost any relation between the capacity demands of items and their correlation with WMC can be obtained. Therefore, the assumption made by previous studies does not hold: The capacity hypothesis does not imply stronger correlations of WMC and intelligence test items with higher capacity demands. Items varying in capacity demands cannot be used to test the causality of WMC (or any other latent variable) for fluid intelligence. [ABSTRACT FROM AUTHOR]

Published

2021

6. How fast can people refresh and rehearse information in working memory?

Author

Oberauer, Klaus and Souza, Alessandra S.

Subjects

*ATTENTION, *MEMORY

Abstract

Refreshing – briefly attending to an item in working memory – has been proposed as a domain-general maintenance process. According to the time-based resource-sharing (TBRS) theory, people refresh the contents of working memory sequentially at high speed. We measured the speed of refreshing by asking participants to sequentially refresh a small set of items in sync with a metronome, and to adjust the metronome to the fastest speed at which they could refresh. Refreshing speeds converged on about 0.2 s per item for several verbal and visual materials. This time was shorter than the speed of articulatory rehearsal measured with the same method, and – in contrast to rehearsal – did not depend on word length. We sought evidence for people refreshing in sync with the metronome by presenting recognition probes at unpredictable times. We expected that probes matching the just-refreshed item should be recognized faster and more accurately than probes matching other items. This was not the case. A parallel experiment with overt articulatory rehearsal showed poor synchronization of rehearsal with the metronome, suggesting by analogy that refreshing was equally out of sync. The results support the assumption that people can attend sequentially to items in working memory, and monitor this process. This refreshing process is probably faster than rehearsal, but it is unlikely to be as fast as the refreshing process assumed in the TBRS theory. [ABSTRACT FROM AUTHOR]

Published

2020

7. Low replicability can support robust and efficient science.

Author

Lewandowsky, Stephan and Oberauer, Klaus

Subjects

SCIENTIFIC community, SCIENTIFIC knowledge, PUBLICATION bias, SCIENTIFIC models

Abstract

There is a broad agreement that psychology is facing a replication crisis. Even some seemingly well-established findings have failed to replicate. Numerous causes of the crisis have been identified, such as underpowered studies, publication bias, imprecise theories, and inadequate statistical procedures. The replication crisis is real, but it is less clear how it should be resolved. Here we examine potential solutions by modeling a scientific community under various different replication regimes. In one regime, all findings are replicated before publication to guard against subsequent replication failures. In an alternative regime, individual studies are published and are replicated after publication, but only if they attract the community's interest. We find that the publication of potentially non-replicable studies minimizes cost and maximizes efficiency of knowledge gain for the scientific community under a variety of assumptions. Provided it is properly managed, our findings suggest that low replicability can support robust and efficient science. There has been much concern about the "replication crisis" in psychology and other disciplines. Here the authors show that an efficient solution to the crisis would not insist on replication before publication, and would instead encourage publication before replication, with the findings marked as preliminary. [ABSTRACT FROM AUTHOR]

Published

2020

8. Addressing the theory crisis in psychology.

Author

Oberauer, Klaus and Lewandowsky, Stephan

Subjects

*FALSE positive error, *PSYCHOLOGY, *CRISES

Abstract

A worrying number of psychological findings are not replicable. Diagnoses of the causes of this "replication crisis," and recommendations to address it, have nearly exclusively focused on methods of data collection, analysis, and reporting. We argue that a further cause of poor replicability is the often weak logical link between theories and their empirical tests. We propose a distinction between discovery-oriented and theory-testing research. In discovery-oriented research, theories do not strongly imply hypotheses by which they can be tested, but rather define a search space for the discovery of effects that would support them. Failures to find these effects do not question the theory. This endeavor necessarily engenders a high risk of Type I errors—that is, publication of findings that will not replicate. Theory-testing research, by contrast, relies on theories that strongly imply hypotheses, such that disconfirmation of the hypothesis provides evidence against the theory. Theory-testing research engenders a smaller risk of Type I errors. A strong link between theories and hypotheses is best achieved by formalizing theories as computational models. We critically revisit recommendations for addressing the "replication crisis," including the proposal to distinguish exploratory from confirmatory research, and the preregistration of hypotheses and analysis plans. [ABSTRACT FROM AUTHOR]

Published

2019

9. The precision of spatial selection into the focus of attention in working memory.

Author

Souza, Alessandra S., Thalmann, Mirko, and Oberauer, Klaus

Subjects

SHORT-term memory, VISUAL memory, PROMPTS (Psychology), ATTENTION, MEMORY

Abstract

Attention helps manage the information held in visual working memory (vWM). Perceptual attention selects the stimuli to be represented in vWM, whereas internal attention prioritizes information already in vWM. In the present study we assessed the spatial precision of perceptual and internal attention in vWM. Participants encoded eight colored dots for a local-recognition test. To manipulate attention, a cue indicated the item most likely to be tested (~65% validity). The cue appeared either before the onset of the memory array (precue) or during the retention interval (retrocue). The precue guides perceptual attention to gate encoding into vWM, whereas the retrocue guides internal attention to prioritize the cued item within vWM. If attentional selection is spatially imprecise, attention should be preferentially allocated to the cued location, with a gradual drop-off of attention over space to nearby uncued locations. In this case, memory for uncued locations should vary as a function of their distance from the cued location. As compared to a no-cue condition, memory was better for validly cued items but worse for uncued items. The spatial distance between the uncued and cued locations modulated the cuing costs: Items close in space to the cued location were insulated from cuing costs. The extension of this spatial proximity effect was larger for precues than for retrocues, mostly because the benefits of attention were larger for precues. These results point to similar selection principles between perceptual and internal attention and to a critical role of spatial distance in the selection of visual representations. [ABSTRACT FROM AUTHOR]

Published

2018

10. The effects of refreshing and elaboration on working memory performance, and their contributions to long-term memory formation.

Author

Singmann, Henrik, Oberauer, Klaus, and Bartsch, Lea M.

Subjects

*ATTENTION, *MEMORY, *PSYCHOLOGY of movement, *SHORT-term memory

Abstract

Refreshing and elaboration are cognitive processes assumed to underlie verbal working-memory maintenance and assumed to support long-term memory formation. Whereas refreshing refers to the attentional focussing on representations, elaboration refers to linking representations in working memory into existing semantic networks. We measured the impact of instructed refreshing and elaboration on working and long-term memory separately, and investigated to what extent both processes are distinct in their contributions to working as well as long-term memory. Compared with a no-processing baseline, immediate memory was improved by repeating the items, but not by refreshing them. There was no credible effect of elaboration on working memory, except when items were repeated at the same time. Long-term memory benefited from elaboration, but not from refreshing the words. The results replicate the long-term memory benefit for elaboration, but do not support its beneficial role for working memory. Further, refreshing preserves immediate memory, but does not improve it beyond the level achieved without any processing. [ABSTRACT FROM AUTHOR]

Published

2018

11. Serial recall of colors: Two models of memory for serial order applied to continuous visual stimuli.

Author

Peteranderl, Sonja and Oberauer, Klaus

Subjects

*COLOR vision, *COMPUTER simulation, *LEARNING, *MEMORY, *TIME, *VISUAL evoked response, *NARRATIVES, *MEDICAL coding

Abstract

This study investigated the effects of serial position and temporal distinctiveness on serial recall of simple visual stimuli. Participants observed lists of five colors presented at varying, unpredictably ordered interitem intervals, and their task was to reproduce the colors in their order of presentation by selecting colors on a continuous-response scale. To control for the possibility of verbal labeling, articulatory suppression was required in one of two experimental sessions. The predictions were derived through simulation from two computational models of serial recall: SIMPLE represents the class of temporal-distinctiveness models, whereas SOB-CS represents event-based models. According to temporal-distinctiveness models, items that are temporally isolated within a list are recalled more accurately than items that are temporally crowded. In contrast, event-based models assume that the time intervals between items do not affect recall performance per se, although free time following an item can improve memory for that item because of extended time for the encoding. The experimental and the simulated data were fit to an interference measurement model to measure the tendency to confuse items with other items nearby on the list-the locality constraint-in people as well as in the models. The continuous-reproduction performance showed a pronounced primacy effect with no recency, as well as some evidence for transpositions obeying the locality constraint. Though not entirely conclusive, this evidence favors event-based models over a role for temporal distinctiveness. There was also a strong detrimental effect of articulatory suppression, suggesting that verbal codes can be used to support serial-order memory of simple visual stimuli. [ABSTRACT FROM AUTHOR]

Published

2018

12. The contributions of visual and central attention to visual working memory.

Author

Souza, Alessandra and Oberauer, Klaus

Subjects

*VISUAL memory, *VISUAL perception, *ATTENTION, *STIMULUS & response (Psychology), *SHORT-term memory

Abstract

We investigated the role of two kinds of attention-visual and central attention-for the maintenance of visual representations in working memory (WM). In Experiment 1 we directed attention to individual items in WM by presenting cues during the retention interval of a continuous delayed-estimation task, and instructing participants to think of the cued items. Attending to items improved recall commensurate with the frequency with which items were attended (0, 1, or 2 times). Experiments 1 and 3 further tested which kind of attention-visual or central-was involved in WM maintenance. We assessed the dual-task costs of two types of distractor tasks, one tapping sustained visual attention and one tapping central attention. Only the central attention task yielded substantial dual-task costs, implying that central attention substantially contributes to maintenance of visual information in WM. Experiment 2 confirmed that the visual-attention distractor task was demanding enough to disrupt performance in a task relying on visual attention. We combined the visual-attention and the central-attention distractor tasks with a multiple object tracking (MOT) task. Distracting visual attention, but not central attention, impaired MOT performance. Jointly, the three experiments provide a double dissociation between visual and central attention, and between visual WM and visual object tracking: Whereas tracking multiple targets across the visual filed depends on visual attention, visual WM depends mostly on central attention. [ABSTRACT FROM AUTHOR]

Published

2017

13. Analogous selection processes in declarative and procedural working memory: N-2 list-repetition and task-repetition costs.

Author

Gade, Miriam, Souza, Alessandra, Druey, Michel, and Oberauer, Klaus

Subjects

COGNITION, MEMORY, THOUGHT & thinking

Abstract

Working memory (WM) holds and manipulates representations for ongoing cognition. Oberauer ( Psychology of Learning and Motivation, 51, 45-100, 2009) distinguishes between two analogous WM sub-systems: a declarative WM which handles the objects of thought, and a procedural WM which handles the representations of (cognitive) actions. Here, we assessed whether analogous effects are observed when participants switch between memory sets (declarative representations) and when they switch between task sets (procedural representations). One mechanism assumed to facilitate switching in procedural WM is the inhibition of previously used, but currently irrelevant task sets, as indexed by n-2 task-repetition costs (Mayr & Keele, Journal of Experimental Psychology: General, 129(1), 4-26, 2000). In this study we tested for an analogous effect in declarative WM. We assessed the evidence for n-2 list-repetition costs across eight experiments in which participants switched between memory lists to perform speeded classifications, mental arithmetic, or a local recognition test. N-2 list-repetition costs were obtained consistently in conditions assumed to increase interference between memory lists, and when lists formed chunks in long-term memory. Further analyses across experiments revealed a substantial contribution of episodic memory to n-2 list-repetition costs, thereby questioning the interpretation of n-2 repetition costs as reflecting inhibition. We reanalyzed the data of eight task-switching experiments, and observed that episodic memory also contributes to n-2 task-repetition costs. Taken together, these results show analogous processing principles in declarative and procedural WM, and question the relevance of inhibitory processes for efficient switching between mental sets. [ABSTRACT FROM AUTHOR]

Published

2017

14. In search of the focus of attention in working memory: 13 years of the retro-cue effect.

Author

Souza, Alessandra and Oberauer, Klaus

Subjects

*SHORT-term memory, *VISUAL memory, *ATTENTION control, *VISUAL perception, *COGNITIVE psychology, *REACTION time, *STIMULUS & response (Psychology)

Abstract

The concept of attention has a prominent place in cognitive psychology. Attention can be directed not only to perceptual information, but also to information in working memory (WM). Evidence for an internal focus of attention has come from the retro-cue effect: Performance in tests of visual WM is improved when attention is guided to the test-relevant contents of WM ahead of testing them. The retro-cue paradigm has served as a test bed to empirically investigate the functions and limits of the focus of attention in WM. In this article, we review the growing body of (behavioral) studies on the retro-cue effect. We evaluate the degrees of experimental support for six hypotheses about what causes the retro-cue effect: (1) Attention protects representations from decay, (2) attention prioritizes the selected WM contents for comparison with a probe display, (3) attended representations are strengthened in WM, (4) not-attended representations are removed from WM, (5) a retro-cue to the retrieval target provides a head start for its retrieval before decision making, and (6) attention protects the selected representation from perceptual interference. The extant evidence provides support for the last four of these hypotheses. [ABSTRACT FROM AUTHOR]

Published

2016

15. Forward scanning in verbal working memory updating.

Author

Kessler, Yoav and Oberauer, Klaus

Subjects

*SHORT-term memory, *ORAL communication, *COGNITION, *LEARNING, *VISUAL fields, *INFORMATION processing

Abstract

Effective use of working memory (WM) for high-level cognitive tasks requires coordinating two conflicting requirements: robust maintenance and rapid updating. Models of WM suggest that these demands are coordinated by a gate between perceptual input and WM. Previous work with a letter-updating paradigm (Kessler & Oberauer, Journal of Experimental Psychology: Learning, Memory, and Cognition, 40, 738-754, 2014) supported a scanning and gate-switching (SGS) model of WM updating. The present work provides further evidence for the SGS model. Participants were required to keep track of the last letter that appeared in each of a row of frames on the screen. On each updating step, a variable subset of letters in varying positions in the row had to be updated. The SGS model assumes that on each updating step, participants scan through the memory set sequentially, opening the gate when a letter requires updating, and closing the gate when the next letter needs to be maintained. As is predicted by the SGS model, the reaction times for each updating step increased with the number of updated items and with the number of gate switches. In addition, the present experiment provides direct evidence supporting the scanning assumption of the model. Hebrew-speaking participants performed the task with either Hebrew or English letter stimuli, in different blocks. As was predicted, the scanning direction of the stimulus set was from left to right in English and from right to left in Hebrew. The SGS model fit the data only when the scanning direction was taken into account, establishing the role of item-based forward scanning during WM updating. [ABSTRACT FROM AUTHOR]

Published

2015

16. Selection in spatial working memory is independent of perceptual selective attention, but they interact in a shared spatial priority map.

Author

Hedge, Craig, Oberauer, Klaus, and Leonards, Ute

Subjects

*SHORT-term memory, *ATTENTION, *VISUAL perception, *STIMULUS & response (Psychology), *TASK performance

Abstract

We examined the relationship between the attentional selection of perceptual information and of information in working memory (WM) through four experiments, using a spatial WM-updating task. Participants remembered the locations of two objects in a matrix and worked through a sequence of updating operations, each mentally shifting one dot to a new location according to an arrow cue. Repeatedly updating the same object in two successive steps is typically faster than switching to the other object; this object switch cost reflects the shifting of attention in WM. In Experiment 1, the arrows were presented in random peripheral locations, drawing perceptual attention away from the selected object in WM. This manipulation did not eliminate the object switch cost, indicating that the mechanisms of perceptual selection do not underlie selection in WM. Experiments 2a and 2b corroborated the independence of selection observed in Experiment 1, but showed a benefit to reaction times when the placement of the arrow cue was aligned with the locations of relevant objects in WM. Experiment 2c showed that the same benefit also occurs when participants are not able to mark an updating location through eye fixations. Together, these data can be accounted for by a framework in which perceptual selection and selection in WM are separate mechanisms that interact through a shared spatial priority map. [ABSTRACT FROM AUTHOR]

Published

2015

17. The Hebb repetition effect in simple and complex memory span.

Author

Oberauer, Klaus, Jones, Timothy, and Lewandowsky, Stephan

Subjects

*ATTENTION, *COGNITION, *CONFIDENCE intervals, *LEARNING strategies, *MEMORY, *PROBABILITY theory, *REGRESSION analysis, *RESEARCH funding, *SHORT-term memory, *TASK performance

Abstract

The Hebb repetition effect refers to the finding that immediate serial recall is improved over trials for memory lists that are surreptitiously repeated across trials, relative to new lists. We show in four experiments that the Hebb repetition effect is also observed with a complex-span task, in which encoding or retrieval of list items alternates with an unrelated processing task. The interruption of encoding or retrieval by the processing task did not reduce the size of the Hebb effect, demonstrating that incidental long-term learning forms integrated representations of lists, excluding the interleaved processing events. Contrary to the assumption that complex-span performance relies more on long-term memory than standard immediate serial recall (simple span), the Hebb effect was not larger in complex-span than in simple-span performance. The Hebb effect in complex span was also not modulated by the opportunity for refreshing list items, questioning a role of refreshing for the acquisition of the long-term memory representations underlying the effect. [ABSTRACT FROM AUTHOR]

Published

2015

18. Time-based forgetting in visual working memory reflects temporal distinctiveness, not decay.

Author

Souza, Alessandra and Oberauer, Klaus

Subjects

*TEMPORAL integration, *MEMORY loss, *MEMORY span, *SHORT-term memory, *VISUAL memory, *VISUAL perception

Abstract

Is forgetting from working memory (WM) better explained by decay or interference? The answer to this question is the topic of an ongoing debate. Recently, a number of studies showed that performance in tests of visual WM declines with an increasing unfilled retention interval. This finding was interpreted as revealing decay. Alternatively, it can be explained by interference theories as an effect of temporal distinctiveness. According to decay theories, forgetting depends on the absolute time elapsed since the event to be retrieved. In contrast, temporal distinctiveness theories predict that memory depends on relative time, that is, the time since the to-be-retrieved event relative to the time since other, potentially interfering events. In the present study, we contrasted the effects of absolute time and relative time on forgetting from visual WM, using a continuous color recall task. To this end, we varied the retention interval and the inter-trial interval. The error in reporting the target color was a function of the ratio of the retention interval to the inter-trial interval, as predicted by temporal distinctiveness theories. Mixture modeling revealed that lower temporal distinctiveness produced a lower probability of reporting the target, but no changes in its precision in memory. These data challenge the role of decay in accounting for performance in tests of visual WM, and show that the relative spacing of events in time determines the degree of interference. [ABSTRACT FROM AUTHOR]

Published

2015

19. Comparing the meanings of 'if' and 'all'.

Author

Cruz, Nicole and Oberauer, Klaus

Subjects

*ANALYSIS of variance, *COLLEGE students, *CONFIDENCE intervals, *CRITICAL thinking, *PROBABILITY theory, *STATISTICAL sampling, *DESCRIPTIVE statistics

Abstract

In this study, we compared the everyday meanings of conditionals ('if p then q') and universally quantified statements ('all p are q') when applied to sets of elements. The interpretation of conditionals was predicted to be directly related to the conditional probability, such that P('if p then q') = P( q| p). Quantified statements were assumed to have two interpretations. According to an instance-focused interpretation, quantified statements are equivalent to conditionals, such that P('all p are q') = P( q| p). According to a set-focused interpretation, 'all p are q' is true if and only if every instance in set p is an instance of q, so that the statement would be accepted when P( q| p) = 1 and rejected when this probability was below 1. We predicted an instance-focused interpretation of 'all' when the relation between p and q expressed a general law for an infinite set of elements. A set-focused interpretation of 'all' was predicted when the relation between p and q expressed a coincidence among the elements of a finite set. Participants were given short context stories providing information about the frequency of co-occurrence of cases of p, q, not- p, and not- q in a population. They were then asked to estimate the probability that a statement (conditional or quantified) would be true for a random sample taken from that population. The probability estimates for conditionals were in accordance with an instance-focused interpretation, whereas the estimates for quantified statements showed features of a set-focused interpretation. The type of the relation between p and q had no effect on this outcome. [ABSTRACT FROM AUTHOR]

Published

2014

20. Effects and mechanisms of working memory training: a review.

Author

Bastian, Claudia and Oberauer, Klaus

Subjects

*SHORT-term memory, *COGNITIVE ability, *SYSTEMATIC reviews, *EMPIRICAL research, *PERSONALITY, *MOTIVATION (Psychology)

Abstract

Can cognitive abilities such as reasoning be improved through working memory training? This question is still highly controversial, with prior studies providing contradictory findings. The lack of theory-driven, systematic approaches and (occasionally serious) methodological shortcomings complicates this debate even more. This review suggests two general mechanisms mediating transfer effects that are (or are not) observed after working memory training: enhanced working memory capacity, enabling people to hold more items in working memory than before training, or enhanced efficiency using the working memory capacity available (e.g., using chunking strategies to remember more items correctly). We then highlight multiple factors that could influence these mechanisms of transfer and thus the success of training interventions. These factors include (1) the nature of the training regime (i.e., intensity, duration, and adaptivity of the training tasks) and, with it, the magnitude of improvements during training, and (2) individual differences in age, cognitive abilities, biological factors, and motivational and personality factors. Finally, we summarize the findings revealed by existing training studies for each of these factors, and thereby present a roadmap for accumulating further empirical evidence regarding the efficacy of working memory training in a systematic way. [ABSTRACT FROM AUTHOR]

Published

2014

21. Focused attention improves working memory: implications for flexible-resource and discrete-capacity models.

Author

Souza, Alessandra, Rerko, Laura, Lin, Hsuan-Yu, and Oberauer, Klaus

Subjects

VISUAL memory, VISUAL perception, SHORT-term memory, DISTRACTION, VISUAL discrimination

Abstract

Performance in working memory (WM) tasks depends on the capacity for storing objects and on the allocation of attention to these objects. Here, we explored how capacity models need to be augmented to account for the benefit of focusing attention on the target of recall. Participants encoded six colored disks (Experiment 1) or a set of one to eight colored disks (Experiment 2) and were cued to recall the color of a target on a color wheel. In the no-delay condition, the recall-cue was presented after a 1,000-ms retention interval, and participants could report the retrieved color immediately. In the delay condition, the recall-cue was presented at the same time as in the no-delay condition, but the opportunity to report the color was delayed. During this delay, participants could focus attention exclusively on the target. Responses deviated less from the target's color in the delay than in the no-delay condition. Mixture modeling assigned this benefit to a reduction in guessing (Experiments 1 and 2) and transposition errors (Experiment 2). We tested several computational models implementing flexible or discrete capacity allocation, aiming to explain both the effect of set size, reflecting the limited capacity of WM, and the effect of delay, reflecting the role of attention to WM representations. Both models fit the data better when a spatially graded source of transposition error is added to its assumptions. The benefits of focusing attention could be explained by allocating to this object a higher proportion of the capacity to represent color. [ABSTRACT FROM AUTHOR]

Published

2014

22. Retro-cue benefits in working memory without sustained focal attention.

Author

Rerko, Laura, Souza, Alessandra, and Oberauer, Klaus

Abstract

In working memory (WM) tasks, performance can be boosted by directing attention to one memory object: When a retro-cue in the retention interval indicates which object will be tested, responding is faster and more accurate (the retro-cue benefit). We tested whether the retro-cue benefit in WM depends on sustained attention to the cued object by inserting an attention-demanding interruption task between the retro-cue and the memory test. In the first experiment, the interruption task required participants to shift their visual attention away from the cued representation and to a visual classification task on colors. In the second and third experiments, the interruption task required participants to shift their focal attention within WM: Attention was directed away from the cued representation by probing another representation from the memory array prior to probing the cued object. The retro-cue benefit was not attenuated by shifts of perceptual attention or by shifts of attention within WM. We concluded that sustained attention is not needed to maintain the cued representation in a state of heightened accessibility. [ABSTRACT FROM AUTHOR]

Published

2014

23. Visual working memory declines when more features must be remembered for each object.

Author

Oberauer, Klaus and Eichenberger, Simon

Subjects

*ANALYSIS of variance, *EXPERIMENTAL design, *MEMORY, *RESEARCH funding, *VISUAL perception, *STATISTICAL models, *DESCRIPTIVE statistics

Abstract

The article reports three experiments investigating the limits of visual working memory capacity with a single-item probe change detection paradigm. Contrary to previous reports (e.g., Vogel, Woodman, & Luck, Journal of Experimental Psychology. Human Perception and Performance, 27, 92-114, ), increasing the number of features to be remembered for each object impaired change detection. The degree of impairment was not modulated by encoding duration, size of change, or the number of different levels on each feature dimension. Therefore, a larger number of features does not merely impair memory precision. The effect is unlikely to be due to encoding limitations, to verbal encoding of features, or to chunk learning of multifeature objects. The robust effect of number of features contradicts the view that the capacity of visual working memory can be described in terms of number of objects regardless of their characteristics. Visual working memory capacity is limited on at least three dimensions: the number of objects, the number of features per object, and the precision of memory for each feature. [ABSTRACT FROM AUTHOR]

Published

2013

24. Effects of working memory training in young and old adults.

Author

Bastian, Claudia, Langer, Nicolas, Jäncke, Lutz, and Oberauer, Klaus

Subjects

ANALYSIS of variance, COGNITION, CONFIDENCE intervals, ELECTROENCEPHALOGRAPHY, MAGNETIC resonance imaging, MEMORY, RESEARCH funding, STATISTICAL sampling, STATISTICS, T-test (Statistics), THOUGHT & thinking, DATA analysis, PRE-tests & post-tests, REPEATED measures design, DESCRIPTIVE statistics

Abstract

Many cognitive abilities, including working memory and reasoning ability, decline with progressing age. In this study, we investigated whether four weeks of intensive working memory training would enhance working memory and reasoning performance in an age-comparative setting. Groups of 34 young (19-36 years) and 27 older (62-77 years) adults practiced tasks representing the three functional categories in the facet model of working memory capacity: storage and processing, relational integration, and supervision. The data were compared to those of a young and an old active control group who practiced tasks with low working memory demands. A cognitive test battery measuring near and far transfer was administered before and after training. Both age groups showed increased working memory performance in the trained tasks and in one structurally similar, but nontrained, task. Young adults also improved in a task measuring word-position binding in working memory. However, we found no far transfer to reasoning in either age group. The results provide evidence that working memory performance can be improved throughout the life span. However, in contrast to a previous study in which each facet of working memory capacity was trained separately, the present study showed that training multiple functional categories simultaneously induces less transfer. [ABSTRACT FROM AUTHOR]

Published

2013

25. Modeling working memory: An interference model of complex span.

Author

Oberauer, Klaus, Lewandowsky, Stephan, Farrell, Simon, Jarrold, Christopher, and Greaves, Martin

Subjects

*SHORT-term memory, *COGNITIVE interference, *COMPUTATIONAL statistics, *LEARNING, *PREDICTION (Psychology)

Abstract

This article introduces a new computational model for the complex-span task, the most popular task for studying working memory. SOB-CS is a two-layer neural network that associates distributed item representations with distributed, overlapping position markers. Memory capacity limits are explained by interference from a superposition of associations. Concurrent processing interferes with memory through involuntary encoding of distractors. Free time in-between distractors is used to remove irrelevant representations, thereby reducing interference. The model accounts for benchmark findings in four areas: (1) effects of processing pace, processing difficulty, and number of processing steps; (2) effects of serial position and error patterns; (3) effects of different kinds of item-distractor similarity; and (4) correlations between span tasks. The model makes several new predictions in these areas, which were confirmed experimentally. [ABSTRACT FROM AUTHOR]

Published

2012

26. Modeling working memory: a computational implementation of the Time-Based Resource-Sharing theory.

Author

Oberauer, Klaus and Lewandowsky, Stephan

Subjects

*SHORT-term memory, *MEMORY, *VARIABILITY (Psychometrics), *RECALL (Information retrieval), *VERBAL behavior testing

Abstract

Working memory is a core concept in cognition, predicting about 50% of the variance in IQ and reasoning tasks. A popular test of working memory is the complex span task, in which encoding of memoranda alternates with processing of distractors. A recent model of complex span performance, the Time-Based-Resource-Sharing (TBRS) model of Barrouillet and colleagues, has seemingly accounted for several crucial findings, in particular the intricate trade-off between deterioration and restoration of memory in the complex span task. According to the TBRS, memory traces decay during processing of the distractors, and they are restored by attentional refreshing during brief pauses in between processing steps. However, to date, the theory has been formulated only at a verbal level, which renders it difficult to test and to be certain of its intuited predictions. We present a computational instantiation of the TBRS and show that it can handle most of the findings on which the verbal model was based. We also show that there are potential challenges to the model that await future resolution. This instantiated model, TBRS*, is the first comprehensive computational model of performance in the complex span paradigm. The Matlab model code is available as a supplementary material of this article. [ABSTRACT FROM AUTHOR]

Published

2011

27. Adaptive choice between articulatory rehearsal and attentional refreshing in verbal working memory.

Author

Camos, Valérie, Mora, Gerome, and Oberauer, Klaus

Subjects

ANALYSIS of variance, ATTENTION, DECISION making, LEARNING, PHONETICS, REACTION time, SEMANTICS, SHORT-term memory, VERBAL behavior, UNDERGRADUATES

Abstract

Because both articulatory rehearsal and attentional refreshing aid in the maintenance of verbal information in the short term, the present study evaluated the adaptive use of these mechanisms, using a complex span paradigm. In Experiment 1, the phonological similarity of memory list words and the attentional demand of concurrent processing were manipulated. As was predicted, a phonological similarity effect (PSE) appeared only when the concurrent task was attention demanding, thus impairing the use of refreshing and encouraging rehearsal. To verify that PSE indicates the use of rehearsal, participants were instructed to use one of the two mechanisms in Experiments 2 and 3. In accordance wih Experiment 1, the PSE was observed only under rehearsal. Thus, adults could adaptively choose between the two mechanisms. When remembering phonologically confusable materials, they prefer refreshing in order to reduce the impact of phonological characteristics. When available attention is reduced, they favor a less attention-demanding mechanism, rehearsal. [ABSTRACT FROM AUTHOR]

Published

2011

28. A working memory test battery for MATLAB.

Author

LEWANDOWSKY, STEPHAN, OBERAUER, KLAUS, LEE-XIENG YANG, and ECKER, ULLRICH K. H.

Subjects

*SHORT-term memory, *PSYCHOPHYSICS, *MATRICES (Mathematics), *INTELLECT, *CHINESE language

Abstract

We present a battery of four working memory tasks that are implemented using MATLAB and the free Psychophysics Toolbox. The package includes preprocessing scripts in R and SPSS to facilitate data analysis. The four tasks consist of a sentence-span task, an operation-span task, a spatial short-term memory test, and a memory updating task. These tasks were chosen in order to provide a heterogeneous set of measures of working memory capacity, thus reducing method variance and tapping into two content domains of working memory (verbal, including numerical, vs. spatial) and two of its functional aspects (storage in the context of processing and relational integration). The task battery was validated in three experiments conducted in two languages ( English and Chinese), involving more than 350 participants. In all cases, the tasks were found to load on a single latent variable. In a further experiment, the latent working memory variable was found to correlate highly but not perfectly with performance on Raven's matrices test of fluid intelligence. We suggest that the battery constitutes a versatile tool to assess working memory capacity with either English- or Chinese-speaking participants. The battery can be downloaded from www.cogsciwa.com ("Software" button). [ABSTRACT FROM AUTHOR]

Published

2010

29. Individual differences in conflict-monitoring: testing means and covariance hypothesis about the Simon and the Eriksen Flanker task.

Author

Keye, Doris, Wilhelm, Oliver, Oberauer, Klaus, and Van Ravenzwaaij, Don

Subjects

INDIVIDUAL differences, CONFLICT (Psychology), COGNITION, CONTROL (Psychology), SHORT-term memory

Abstract

Conflict and context slow-down have been proposed as indicators of a conflict-monitoring system that initiates cognitive control to resolve conflicts in information processing. We investigated individual differences in conflict-monitoring and their associations with working memory (WM) and impulsivity. A total of 150 adults completed a Simon and an Eriksen flanker task, together with measures of WM and impulsivity. On both tasks, responses were slower and less accurate on incompatible than on compatible trials (conflict effect), and the conflict effect was larger when the preceding trial was compatible than when it was incompatible (context effect). Stimulus repetition did not explain the context effect. Individual differences could be attributed to three separable factors for each task: general speeded performance, conflict effect, and context effect. Evidence for across-task generality of these factors was sparse. Associations of these factors with impulsivity were weak at best. WM was correlated with general speed, and also with some but not all factors reflecting conflict-related processes. [ABSTRACT FROM AUTHOR]

Published

2009

30. Interference between storage and processing in working memory: Feature overwriting, not similarity-based competition.

Author

Oberauer, Klaus

Subjects

*INTERFERENCE (Linguistics), *LANGUAGE transfer (Language learning), *SHORT-term memory, *HYPOTHESIS, *PHONOLOGICAL awareness, *PHONOLOGICAL encoding, *SEMANTICS

Abstract

Eight experiments with the complex span paradigm are presented to investigate why concurrent processing disrupts short-term retention. Increasing the pace of the processing task led to worse recall, supporting the hypothesis that the processing task distracts attention from maintenance operations. Neither phonological nor semantic similarity between memory items and processing-task material impaired memory. In contrast, the degree of phonological overlap between memory items and processing-task material affected recall negatively, supporting feature overwriting as one source of interference in the complex span paradigm. When compared directly, phonological overlap impaired memory, but similarity had a beneficial effect. These findings rule out response competition or confusion as a mechanism of interference between storage and processing. [ABSTRACT FROM AUTHOR]

Published

2009

31. The word-length effect provides no evidence for decay in short-term memory.

Author

Stephan Lewandowsky and Klaus Oberauer

Subjects

*WORD formation (Grammar), *SHORT-term memory, *ARTICULATION (Speech), *MEMORY disorders, *ATTENTION, *STATISTICAL correlation

Abstract

Many researchers regard the word-length effect (WLE) as one of the strongest pieces of evidence for time-based decay in short-term memory. We argue that the WLE is, in fact, undiagnostic for the decay hypothesis for two reasons. First, the WLE represents a correlation across words between articulation duration and memory performance, and articulation duration is inevitably confounded with other word characteristics. Recent research has confirmed that such confounds are responsible for much, maybe all, of the WLE. Second, there is strong evidence for an attentional mechanism of refreshing memory traces that can operate concurrently with articulation. Any viable decay-based model must include such a mechanism, but such a model no longer necessarily predicts a WLE, because longer spoken duration does not imply longer postponement of refreshing. We conclude that the WLE is not diagnostic for decay in short-term memory. [ABSTRACT FROM AUTHOR]

Published

2008

32. The integration of familiarity and recollection information in short-term recognition: modeling speed-accuracy trade-off functions.

Author

Göthe, Katrin and Oberauer, Klaus

Subjects

*INTEGRATION (Theory of knowledge), *RECOGNITION (Psychology), *MEMORY, *HYPOTHESIS, *SOCIAL dominance

Abstract

Dual process models postulate familiarity and recollection as the basis of the recognition process. We investigated the time-course of integration of the two information sources to one recognition judgment in a working memory task. We tested 24 subjects with a response signal variant of the modified Sternberg recognition task (Oberauer, ) to isolate the time course of three different probe types indicating different combinations of familiarity and source information. We compared two mathematical models implementing different ways of integrating familiarity and recollection. Within each model, we tested three assumptions about the nature of the familiarity signal, with familiarity having (a) only positive values, indicating similarity of the probe with the memory list, (b) only negative values, indicating novelty, or (c) both positive and negative values. Both models provided good fits to the data. A model combining the outputs of both processes additively (Integration Model) gave an overall better fit to the data than a model based on a continuous familiarity signal and a probabilistic all-or-none recollection process (Dominance Model). [ABSTRACT FROM AUTHOR]

Published

2008

33. Reasoning with conditionals: Does every counterexample count? It's frequency that counts.

Author

Geiger, Sonja M. and Oberauer, Klaus

Subjects

*CONDITIONALS (Logic), *BELIEF change, *REASONING, *ANALYTICAL skills, *COGNITIVE Abilities Test, *COGNITIVE analysis, *INFERENCE (Logic), *DECISION making, *PSYCHOLOGY of learning

Abstract

A series of experiments investigated what determines people's degree of belief in conditionals and their readiness to draw inferences from them. Information on the frequency of exceptions to conditional rules was contrasted with information about the number of different disabling conditions causing these exceptions. Experiments 1 and 2, using conditionals with arbitrary contents, revealed a strong effect of frequency information and no effect of disabling information. Experiment 3 established that, in the absence of frequency information, the disabling condition information used in Experiments 1 and 2 affected belief in the conditionals and inference acceptance, as has been found in many previous studies (Byrne, 1989; DeNeys, Schaeken, & d'Ydewalle, 2003b). Experiment 4 extended the results of Experiments 1 and 2 to everyday conditionals. The results show that belief in a conditional, and the confidence in inferences subsequently drawn from it, both depend on the subjective conditional probability of the consequent given the antecedent. This probability is estimated from the relative frequency of exceptions regardless of what causes them. [ABSTRACT FROM AUTHOR]

Published

2007

34. The effects of processing time and processing rate on forgetting in working memory: Testing four models of the complex span paradigm.

Author

Hudjetz, Annekatrin and Oberauer, Klaus

Subjects

*READING research, *WORD recognition, *ARTICULATION (Speech), *RECOLLECTION (Psychology), *MEMORY research, *VISUAL perception, *MENTAL discipline, *MEMORY transfer, *PSYCHOLOGY

Abstract

Four models of working memory processes in the complex span paradigm were tested: The task-switching model of Towse, Hitch, and Hutton (1998), the interference account of Saito and Miyake (2004), and two versions of the time-based resource-sharing model of Barrouillet, Bernardin, and Cainos (2004). On the basis of a reading span paradigm that used segmented sentences, the effect of processing time on the recall of words was investigated while the amount of processing was held constant. Two conditions of reading (continuous vs. normal) were compared in order to study the influence of brief pauses during reading that could be used for articulatory rehearsal. The results favor a version of the time-based resource-sharing model: A faster reading rate had a negative effect on recall. The effect of reading rate was obtained with continuous as well as normal reading, revealing that even continuous articulation does not prevent simultaneous refreshing of memory traces. A second experiment showed that continuous reading made concurrent articulatory rehearsal virtually impossible. These findings imply that a second rehearsal mechanism for verbal working memory, other than articulatory rehearsal, exists. [ABSTRACT FROM AUTHOR]

Published

2007

35. Two principles of premise integration in spatial reasoning.

Author

Hörnig, Robin, Oberauer, Klaus, and Weidenfeld, Andrea

Subjects

*REASONING, *COMPREHENSION, *SOCIAL integration, *ANAPHORA (Linguistics), *PRONOUNS (Grammar), *PREPOSITIONAL phrases

Abstract

We propose two principles that facilitate integration of two relational premises in spatial reasoning. Integration is easier if the anaphor in the second premise, P2, bears the role of the relatum (relatum = given). Moreover, integration is easier it; in P2, the anaphor is mentioned before the new element (given-new). In premises with canonical word order (grammatical subjects mentioned first), these principles always conflict with one another. In topicalized statements mentioning the prepositional phrase first, the two principles work in tandem. By varying word order, we tested the two principles by measuring P2 comprehension times. Comprehension times indicated that integration was easiest when P2 obeyed both principles and most difficult when both principles were violated. Canonical premises were of intermediate difficulty This pattern emerged regardless of whether the anaphor was a definite description or a pronoun. [ABSTRACT FROM AUTHOR]

Published

2005

36. Logical reasoning and probabilities: A comprehensive test of Oaksford and Chater (2001).

Author

Klaus Oberauer, Andrea Weidenfeld, and Robin Hörnig

Subjects

PROBABILITY theory, MATHEMATICAL combinations, REASONING, THOUGHT & thinking

Abstract

We report two experiments testing a central prediction of the probabilistic account of reasoning provided by Oaksford and Chater (2001): Acceptance of standard conditional inferences, card choices in the Wason selection task, and quantifiers chosen for conclusions from syllogisms should vary as a function of the frequency of the concepts involved. Frequency was manipulated by a probability-learning phase preceding the reasoning tasks to simulate natural sampling. The effects predicted by Oaksford and Chater (2001) were not obtained with any of the three paradigms. [ABSTRACT FROM AUTHOR]

Published

2004

37. Age differences in working memory—The roles of storage and selective access.

Author

Oberauer, Klaus, Wendland, Mirko, and Kliegl, Reinhold

Subjects

*SHORT-term memory, *AGE factors in memory

Abstract

Twenty-four young (23 years) and 24 old (71 years) adults performed arithmetic tasks with working memory loads ranging from 1 to 4. Age groups were equivalent in mean accuracy and speed of arithmetic operations under minimal working memory load, but old adults were slower than young with memory demands > 1. Access to a new object in working memory as the basis of computation required additional time. This object-switching cost increased with increases in memory demand, but was unaffected by age, indicating that old adults have no deficit in selective access to working memory. [ABSTRACT FROM AUTHOR]

Published

2003

38. Dissociating retention and access in working memory: An Age-comparative study of mental arithmetic.

Author

Oberauer, Klaus, Demmrich, Anke, Mayr, Ulrich, and Kliegl, Reinhold

Subjects

*SHORT-term memory, *MENTAL arithmetic

Abstract

Examines the role of working memory in mental arithmetic. Replacement of variables in the arithmetic tasks by digits from the screen or memory set; Reduction of the arithmetic performance; Critical source of concurrent-load interference; Insensitivity to the effects of adult aging.

Published

2001

39. Working memory and interference: A comment on Jenkins, Myerson, Hale, and Fry (1999).

Author

Oberauer, Klaus and Süß, Heinz-Martin

Published

2000

40. Räumliches Schließen als Sprachverstehen.

Author

Hörnig, Robin, Oberauer, Klaus, and Weidenfeld, Andrea

Abstract

Copyright of Kognitionswissenschaft is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2002

41. Publisher Correction: Low replicability can support robust and efficient science.

Author

Lewandowsky, Stephan and Oberauer, Klaus

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper. [ABSTRACT FROM AUTHOR]

Published

2020

42. Individual differences in conflict-monitoring: testing means and covariance hypothesis about the Simon and the Eriksen Flanker task.

Author

Keye, Doris, Wilhelm, Oliver, Oberauer, Klaus, and Van Ravenzwaaij, Don

Subjects

INDIVIDUAL differences

Abstract

A correction to the article "Individual Differences in Conflict-Monitoring: Testing Means and Covariance Hypothesis About the Simon and the Eriksen Flanker Task" that was published online on September 1, 2009 is presented.

Published

2010

43. The effect of instructed refreshing on working memory: Is the memory boost a function of refreshing frequency or refreshing duration?

Author

Vergauwe, Evie, Souza, Alessandra S., Langerock, Naomi, and Oberauer, Klaus

Subjects

*SHORT-term memory, *MEMORY, *HYPOTHESIS

Abstract

Refreshing is assumed to reactivate the contents of working memory in an attention-based way, resulting in a boost of the attended representations and hence improving their subsequent memory. Here, we examined whether the refreshing-induced memory boost is a constant or a gradual, time-dependent phenomenon. If the beneficial effect of refreshing on memory performance is due to the information being selected for refreshing (i.e., selection hypothesis), a constant memory boost is expected to occur each time an item is selected for refreshing, with better memory performance for items that are selected more often. If, however, the beneficial effect of refreshing on memory performance is due to spending time in the focus of attention during refreshing (i.e., duration hypothesis), a gradual memory boost is expected, with the size of the memory boost being a direct function of how long the item has been the object of focused attention. To distinguish between these hypotheses, we instructed and guided the use of refreshing during retention through the presentation of cues, and varied the number of refreshing steps and their duration independently. The number of refreshing steps, but not their duration, had an effect on recall, in agreement with the selection hypothesis. However, some of the results were less robust than anticipated, indicating that the effect of instructed refreshing is limited to certain task parameters. [ABSTRACT FROM AUTHOR]

Published

2024

44. Removing information from working memory with a delay: Effective but not beneficial.

Author

Dames, Hannah, Li, Chenyu, Frischkorn, Gidon T., and Oberauer, Klaus

Subjects

*SHORT-term memory, *MEMORY, *ENCODING, *RECOLLECTION (Psychology), *COST

Abstract

Ideally, removing outdated information from working memory (WM) should have two consequences: The removed content should be less accessible (removal costs), and other WM content should benefit from the freeing up of WM capacity (removal benefits). Robust removal benefits and removal costs have been demonstrated when people are told to forget items shortly after they were encoded (immediate removal). However, other studies suggest that people might be unable to selectively remove items from an already encoded set of items (delayed removal). In two experiments (n = 219; n = 241), we investigated the effectiveness and consequences of delayed removal by combining a modified version of Ecker’s et al. (Journal of Memory and Language, 74, 77–90, 2014) letter updating task with a directed-forgetting in WM paradigm. We found that while delayed removal resulted in reduced memory for the to-be-forgotten item-location relations (removal costs), it failed to enhance performance for existing WM content. This contrasts sharply with immediate removal, where removal benefits can be observed. A fine-grained analysis of removal benefits shows that removal from WM proactively facilitates the subsequent encoding of new information but does not retroactively aid stored WM content. [ABSTRACT FROM AUTHOR]

Published

2024