Real-world objects scaffold visual working memory for features: Increased neural delay activity when colors are remembered as part of meaningful objects

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2025, Volume and Issue: unknown

Published: April 20, 2025

Abstract Visual working memory is a core cognitive function that allows active storage of task-relevant visual information. While previous studies have postulated the capacity this system fixed with respect to single feature dimension, recent research has shown performance for simple – color improved when encoded as part real-world object relative an unrecognizable scrambled shape. Using EEG (N = 24), we here demonstrate increase supported by enhanced neural delay activity during retention period (indexed contralateral-delay-activity eventrelated potential), suggesting behavioral benefit linked maintenance process memory. Furthermore, using time-resolved similarity measures, show not only increased delay, but also more stable over time colors are remembered objects. Finally, report novel frontocentral event-related potential distinguishes between objects and encoding processes. Overall, our results features can expand depending on what context these in.

Language: Английский

Predictable object motion is extrapolated to support visual working memory for surface features

Cognition, Journal Year: 2025, Volume and Issue: 261, P. 106150 - 106150

Published: April 29, 2025

Space and time support visual working memory (VWM) by providing incidental reference frames for task-relevant information. While this has been studied with stationary items, natural scenes also contain moving objects, whose positions change over time, often in a predictable manner. We investigated if item motion is leveraged to facilitate VWM surface features. In dynamic change-detection task, participants memorised the colours of three disks at constant speed different directions before disappearing. After retention interval, reappeared (a) movement endpoint locations where they had disappeared (b) spatiotemporally congruent their previous (where would have continued movement), (c) temporal offset (consistent while out view) or (d) spatial direction). Performance decreased increasing offsets relative positions, indicating that items' were remapped anticipated future locations. This updating spatiotemporal frames, however, only occurs extrapolation allows reliable predictions occluded items will reappear. task context unreliable patterns, congruency effect diminished performance instead increased endpoints. A second experiment confirmed influence reliability. Thus, extrapolated update VWM, supporting features thereby contributing visually guided behavior environments.

Language: Английский

The benefit of removing information from working memory: Increasing available cognitive resources or reducing interference?

Cognition, Journal Year: 2025, Volume and Issue: 260, P. 106134 - 106134

Published: April 6, 2025

Removing information from working memory is thought to free up capacity and improve the retention of other information. However, whether this benefit arises reducing interference to-be-forgotten or freeing cognitive resources remains unclear. We examined by comparing removal immediately following encoding an item (immediate removal), delayed until after items have been encoded (delayed removal). Interference theories predict that both types should reduce performance. In contrast, if frees resources, beneficial effect on be greater earlier it occurs, as can then allocated subsequently items. Experiment 1 showed immediate failed but improved for item-location bindings still maintained in memory. 2, only facilitated afterward. These results suggest increasing available rather than interference.

Language: Английский