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1. Co-operation of long-term and working memory representations in simultaneous chaining by rhesus monkeys ( Macaca mulatta )

   https://doi.org/10.1177/1747021819838432  

   Templer, Victoria L.; Gazes, Regina Paxton; Hampton, Robert R. (April 2019, Quarterly Journal of Experimental Psychology)

   We studied the memory representations that control execution of action sequences by training rhesus monkeys ( Macaca mulatta) to touch sets of five images in a predetermined arbitrary order (simultaneous chaining). In Experiment 1, we found that this training resulted in mental representations of ordinal position rather than learning associative chains, replicating the work of others. We conducted novel analyses of performance on probe tests consisting of two images “derived” from the full five-image lists (i.e., test B, D from list A→B→C→D→E). We found a “first item effect” such that monkeys responded most quickly to images that occurred early in the list in which they had been learned, indicating that monkeys covertly execute known lists mentally until an image on the screen matches the one stored in memory. Monkeys also made an ordinal comparison of the two images presented at test based on long-term memory of positional information, resulting in a “symbolic distance effect.” Experiment 2 indicated that ordinal representations were based on absolute, rather than on relative, positional information because subjects did not link two lists into one large list after linking training, unlike what occurs in transitive inference. We further examined the contents of working memory during list execution in Experiments 3 and 4 and found evidence for a prospective, rather than a retrospective, coding of position in the lists. These results indicate that serial expertise in simultaneous chaining results in robust absolute ordinal coding in long-term memory, with rapidly updating prospective coding of position in working memory during list execution. 

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2. A Working Memory Model of Sentence Processing as Binding Morphemes to Syntactic Positions

   https://doi.org/10.1111/tops.12780  

   Keshev, Maayan; Cartner, Mandy; Meltzer‐Asscher, Aya; Dillon, Brian (December 2024, Topics in Cognitive Science)

   Abstract As they process complex linguistic input, language comprehenders must maintain a mapping between lexical items (e.g., morphemes) and their syntactic position in the sentence. We propose a model of how these morpheme‐position bindings are encoded, maintained, and reaccessed in working memory, based on working memory models such as “serial‐order‐in‐a‐box” and its SOB‐Complex Span version. Like those models, our model of linguistic working memory derives a range of attested memory interference effects from the process of binding items to positions in working memory. We present simulation results capturing similarity‐based interference as well as item distortion effects. Our model provides a unified account of these two major classes of interference effects in sentence processing, attributing both types of effects to an associative memory architecture underpinning linguistic computation. 

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3. Early‐life relationships matter: Social position during early life predicts fitness among female spotted hyenas

   https://doi.org/10.1111/1365-2656.13282  

   Turner, Julie_W; Robitaille, Alec_L; Bills, Patrick_S; Holekamp, Kay_E; Farine, ed., Damien (July 2020, Journal of Animal Ecology)

   Abstract How social development in early‐life affects fitness remains poorly understood.Though there is growing evidence that early‐life relationships can affect fitness, little research has investigated how social positions develop or whether there are particularly important periods for social position development in an animal's life history. In long‐lived species in particular, understanding the lasting consequences of early‐life social environments requires detailed, long‐term datasets.Here we used a 25‐year dataset to test whether social positions held during early development predicted adult fitness. Specifically, we quantified social position using three social network metrics: degree, strength and betweenness. We determined the social position of each individual in three types of networks during each of three stages of ontogeny to test whether they predict annual reproductive success (ARS) or longevity among adult female spotted hyenasCrocuta crocuta.The social positions occupied by juvenile hyenas did predict their fitness, but the effects of social position on fitness measures differed between stages of early development. Network metrics when individuals were young adults better predicted ARS, but network metrics for younger animals, particularly when youngsters were confined to the communal den, better predicted longevity than did metrics assessed during other stages of development.Our study shows how multiple types of social bonds formed during multiple stages of social development predict lifetime fitness outcomes. We suggest that social bonds formed during specific phases of development may be more important than others when considering fitness outcomes. 

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4. Improving Memory Search Through Model-Based Cue Selection

   https://doi.org/10.1177/09567976231215298  

   Cornell, Charlotte_A; Norman, Kenneth_A; Griffiths, Thomas_L; Zhang, Qiong (January 2024, Psychological Science)

   We often use cues from our environment when we get stuck searching our memories, but prior research has failed to show benefits of cuing with other, randomly selected list items during memory search. What accounts for this discrepancy? We proposed that cues’ content critically determines their effectiveness and sought to select the right cues by building a computational model of how cues affect memory search. Participants ( N = 195 young adults from the United States) recalled significantly more items when receiving our model’s best (vs. worst) cue. Our model provides an account of why some cues better aid recall: Effective cues activate contexts most similar to the remaining items’ contexts, facilitating recall in an unsearched area of memory. We discuss our contributions in relation to prominent theories about the effect of external cues. 

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5. Friends in low-entropy places: Letter position influences orthographic neighbor effects in visual word identification

   Luthra, S.; Magnuson, J. S. (July 2018, Proceedings of the Cognitive Science Society)

   In visual word recognition, having more orthographic neighbors (words that differ by a single letter) generally speeds access to a target word. But neighbors can mismatch at any letter position. In light of evidence that information content varies between letter positions, we consider how neighbor effects might vary across letter positions. Results from a word naming task indicate that response latencies are better predicted by the relative number of positional friends and enemies (respectively, neighbors that match the target at a given letter position and those that mismatch) at some letter positions than at others. In particular, benefits from friends are most pronounced at positions associated with low a priori uncertainty (positional entropy). We consider how these results relate to previous accounts of position-specific effects and how such effects might emerge in serial and parallel processing systems. 

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