United States

We commonly use the language of physics to describe social interactions, even those that do not involve physical contact at all (e.g., pushing, pressuring, blocking). Is there a common conceptual basis for perceiving causal interactions? This study asks whether there is a shared neural code for physical and social interactions. For instance, when a gust of wind knocks a sailboat off its trajectory, is that interaction processed similarly to when an employee is kept from going home by their boss? To investigate domain-invariant representations of causal interactions involving enabling vs. preventing, we presented fMRI participants with vignettes depicting physical interactions between objects or purely social interactions (agents interacting socially but not physically). Multivoxel pattern analyses revealed that brain regions classically associated with physical reasoning and social reasoning contained domain-invariant representations of enabling vs. preventing. These results suggest a shared conceptual structure for making sense of physical and social interactions.

CogSci 2025

Pushing people: the neural basis of social interaction perception

social cognition

fmri

neuroscience

psychology

representation

poster

### Welcome to CogSci Conference 2025!

The 47th Annual Meeting of the Cognitive Science Society was a hybrid meeting held in San Francisco. 

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#### About

The Cognitive Science Society brings together researchers from around the world who hold a common goal: understanding the nature of the human mind. The mission of the Society is to promote Cognitive Science as a discipline, and to foster scientific interchange among researchers in various areas of study, including Artificial Intelligence, Linguistics, Anthropology, Psychology, Neuroscience, Philosophy, and Education.

The Society is a non-profit professional organization and its activities include sponsoring an annual conference and publishing the journals Cognitive Science and TopiCS.

#### Our History 

* **Society Creation**<br>
The Society was incorporated as a 501(c)(3) non-profit professional organization in Massachusetts in 1979. The organizing committee included Roger Schank, Allan Collins, Donald Norman, and a number of other scholars from psychology, linguistics, computer science, and philosophy. 
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* **Conference Creation**<br>
The first conference on cognitive science was held at La Jolla, California in August, 1979, and has occurred annually since then. The proceedings of each conference are published, and those from most years are available through Lawrence Erlbaum Associates, Inc. The annual proceedings of the Cognitive Science Conference represent a major source of information on new work and new ideas in the scientific study of thinking. In 1990, the Society, with help from an anonymous donor, established the David Marr Prize for the best student paper at each annual meeting.
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* **Journal Creation**<br>
The Journal, Cognitive Science, began publication in 1976, and is now published by Wiley-Blackwell. The Executive Editor is currently Richard P. Cooper of Birkbeck, University of London, and there are 18 Associate Editors and a 30-member editorial board. It serves as the premier outlet for research reports that intersect two or more disciplines. Copyrights for articles published in the journal are held by the Society. The Governing Board of the Cognitive Science Society voted in late 2006 to found a new journal, Topics in Cognitive Science (topiCS). The Editor in Chief is Wayne Gray, Cognitive Science Department, Rensselaer Polytechnic Institute. The journal seeks to fill a niche not occupied by Cognitive Science Journal or other cognitive science journals. Membership in the Society includes a subscription to Cognitive Science and TopiCS. Copyrights for articles published in the journal are held by the Society.
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#### Code of Conduct

By attending the CogSci 2025 Conference, you are required to adhere to the society’s **[Code of Conduct](https://drive.google.com/file/d/1ChPuihLy6jE_BWqfO7J2KKgX35JW2zsM/view?usp=sharing)**.
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The 47th Annual Meeting of the Cognitive Science Society presents the latest research across cognitive science and highlights the theme of Cognition in Context.

Short-term phonetic accommodation is a fundamental driver behind accent change, but how does real-time input from another speaker's voice shape the speech planning representations of an interlocutor? We advance a computational model of change in speech planning representations during phonetic accommodation, grounded in dynamic neural field equations for movement planning and memory dynamics. A dual-layer planning/memory field predicts that convergence to a model talker on one trial can trigger divergence on subsequent trials, due to a delayed inhibitory effect in the more slowly evolving memory field. The model's predictions are compared with empirical patterns of accommodation from an experimental pilot study. We show that observed empirical phenomena may correspond to variation in the magnitude of inhibitory memory dynamics, which could reflect resistance to accommodation due to phonological and/or sociolinguistic pressures. We discuss the implications of these results for the relations between short-term phonetic accommodation and sound change.

Phonetic accommodation and inhibition in a dynamic neural field model

Children must learn individual word meanings and the semantic connections among words. Prior work has probed children’s sensitivity to different semantic relations, but little is known about how this knowledge develops. This study examined whether parents and children jointly created semantic regularities in naturalistic everyday interactions. Forty-four parents and their toddlers (M = 20.4 months, range: 13.2-31 months) participated in a 10-minute free play session with 27 toys from three categories (food, animals, vehicles) while wearing head-mounted eye-trackers. Children’s looking from one object to another was categorized as a same category (e.g., dog-cat) or different category (e.g., dog-car) transition, revealing temporal sequences of semantically related toy play: Children were more likely to transition between objects from the same category and heard more unique words from the same category during these toy transitions. Together, these findings demonstrate that parents and children create semantic regularities for learning through shared attention and action.

Parents and Children Create Semantic Regularities During Naturalistic Toy Play

People use their knowledge to evaluate information and make decisions. Yet this knowledge may be faulty, like many lay beliefs on health remedies. This can lead to incorrect decisions and choosing ineffective interventions. While people often overestimate their knowledge, as shown in prior research, less is known about how metacognitive factors such as perceived versus actual knowledge interact with new information we receive during decision-making. Prior work has found that the simplest causal models are most helpful for everyday decisions, but did not examine the role of people’s existing knowledge. To address this gap, we conducted an online experiment to examine how metacognitive abilities influence decision-making with causal diagrams for Type 2 diabetes management. Actual knowledge positively predicted decision-making accuracy, while perceived knowledge had a negative effect, and simpler diagrams led to higher accuracy regardless of prior knowledge. We discuss the implications of our findings for designing decision support interventions.

Understanding the Impact of Metacognitive Ability on Decision-Making with Causal Diagrams

Human planning is incredibly efficient. Even in complex situations with many possible courses of action, people are able to make good decisions. Recent proposals suggest that a primary contributor to this efficiency is the intelligent use of cognitive resources, but how people allocate these resources under time constraints is not fully understood. In this work, we conduct a resource-rational analysis of planning in a large data set of online chess games. We first demonstrate that players spent more time thinking when they had more time to do so, and that this effect was especially prevalent when computation was more valuable. Then, we show that additional time spent planning resulted in better selected moves when one existed, and compare between signals of general and immediate time pressure. Finally, we highlight the role of expertise in this setting. Our results provide evidence that people make resource-rational choices when planning under time pressure.

Exploring resource-rational planning under time pressure in online chess

Egodystonia refers to thoughts and behaviors that conflict with one’s values or beliefs, which is often observed in psychiatric conditions like obsessive-compulsive disorder (OCD). While prior work has demonstrated dissociations between beliefs and actions (Vaghi et al., 2017, 2019), we lack a computational framework to explain the mechanisms underlying this mismatch. In a novel experiment combining behavior and subjective report, we induced egodystonic feelings in a healthy population with a range of obsessive-compulsive traits. Individuals scoring higher on the Obsessive-Compulsive Inventory (OCI-R) reported greater egodystonic experiences. Egodystonicity was not influenced by reward availability or action rate, but was driven by perceived consequences of inaction, as captured by a computational model of the task. This study provides the first experimental evidence of induced egodystonia and offers a foundation for theoretical advances in understanding this phenomenon.

Towards a computational account of egodystonia

Converging evidence suggests that languages are shaped by
a drive for efficient communication. In particular, it has
been shown that languages efficiently compress meanings
into words via the Information Bottleneck (IB) principle in
domains ranging from visual percepts, such as colors and
objects, to non-visual high-level concepts, such as pronouns
and number. These domains, however, capture only static
elements described by adjectives, nouns, function words, or
grammatical markers, leaving open the question of whether the
same theory could also apply to verb meanings, which often
refer to dynamical aspects of the environment. We address
this question by considering locomotion verbs (e.g., walk, run,
and jump) across four languages (English, Dutch, Spanish,
and Japanese). We show that locomotion verb meanings
across languages are shaped by pressure for efficiency, which
resonates with similar findings in other domains and suggests
that the IB principle may apply more broadly across the
lexicon. Our results also open a new avenue for future work
to explore whether semantic categories of actions are rooted
in a strictly perceptual representation, or perhaps in motor and
functional representations as well.

Efficient compression in locomotion verbs across languages

Acquiring multiple meanings for a word is often proposed to be difficult for word learners. However, the difficulty may depend on the meanings: prior work has demonstrated that word-learning is easier for both adults and children when words' multiple meanings are related (polysemous, like "cap”) than unrelated (homophonous, like "bat”). However, it remains an open question how learners infer polysemous meanings if learners encounter these words in more referentially ambiguous contexts. In two studies, we examine children’s and adults’ learning of polysemes under uncertainty, using both artificial stimuli from prior work (Study 1) and attested non-English polysemes (Study 2). Results suggest that while adults can use similarities between referents to infer polysemous meanings across multiple exposures, children generally struggle to do so. This indicates that polyseme learning improves with age and suggests current computational models of cross-situational word-learning may capture children’s word learning strategies better than those of adults.

The development of polyseme learning under uncertainty

In interpersonal conflicts, empathy fosters socially adaptive behaviors that facilitate reconciliation, such as offering comprehensive and non-defensive apologies. Perceivers adjust their behaviors based on inferences about the intentions of social targets during social interactions. How do these inferences relate to perceivers’ empathy and shape their adaptive behaviors in conflicts? This study examined two aspects of intention inference: inference accuracy (how accurately perceivers infer targets’ intentions) and target-oriented inference (how much perceivers focus on targets’ states). We investigated whether these inferences link the relationship between empathy and adaptive behaviors. Our results showed that empathetic perceivers focused more on targets’ states when inferring their intentions, which was associated with offering more comprehensive apologies. Inference accuracy, however, did not influence the relationship between empathy and either the provision of comprehensive apologies or the reduction of defensive responses. Our study underscores the importance of considering others’ states in promoting adaptive behaviors during interpersonal conflicts.

How Empathy Promotes Socially Adaptive Behaviors in Interpersonal Conflicts?: An Exploratory Study on the Role of Intention Inference

Research on how humans perceive aesthetics in shapes, colours, and music has predominantly focused on Western populations, limiting our understanding of how cultural environments shape aesthetic preferences. We present a large-scale cross-cultural study examining aesthetic preferences across five distinct modalities extensively explored in the literature: shape, curvature, colour, musical harmony and melody. We gather 401,403 preference judgements from 4,835 participants across 10 countries, systematically sampling two-dimensional parameter spaces for each modality. The findings reveal both universal patterns and cultural variations. Preferences for shape and curvature cross-culturally demonstrate a consistent preference for symmetrical forms. While colour preferences are categorically consistent, ratio-like preferences vary across cultures. Musical harmony shows strong agreement in interval relationships despite differing regions of preference within the broad frequency spectrum, while melody shows the highest cross-cultural variation. These results suggest that aesthetic preferences emerge from an interplay between shared perceptual mechanisms and cultural learning.

Visual and Musical Aesthetic Preferences Across Cultures

When learning to categorize stimuli, do we assume similar things should have similar labels? Are people more likely to respond with closer labels (e.g. 2-1 vs 2-4) when stimuli are more similar to each other? Across five experiments, we report evidence of such a bias and demonstrate that it can surface across a wide range of stimulus modalities and features, and persists regardless of participants’ prior knowledge of the dimensions relevant for categorization. We also characterize some of the limits of this effect: it appears sensitive to the specific configuration of label-stimulus mappings, and may depend on overt similarity relations in label space. At minimum, our findings indicate the need to consider label-stimulus configurations when designing categorization experiments. They also hint more broadly at how label-to-stimulus mappings may affect how we structure novel categories.

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Phonetic accommodation and inhibition in a dynamic neural field model

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