Linking fast and slow: The case for generative models

Medrano, Johan; Friston, Karl; Zeidman, Peter

doi:10.1162/netn_a_00343

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2024

2025

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Cited by 3 publications

References 99 publications

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Answering, Fast and Slow: Strategy enhancement of visual understanding guided by causality

Wang,

Zhou

2025

Neurocomputing

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Answering, Fast and Slow: Strategy enhancement of visual understanding guided by causality

Wang,

Zhou

2025

Neurocomputing

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Cohabitation of Intelligence and Systems: Towards Self-reference in Digital Anatomies

Morichetta,

Lackinger,

Dustdar

2024

2024 IEEE International Conference on Service-Oriented System Engineering (SOSE)

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A Broken Duet: Multistable Dynamics in Dyadic Interactions

Medrano,

Sajid

2024

Entropy

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Misunderstandings in dyadic interactions often persist despite our best efforts, particularly between native and non-native speakers, resembling a broken duet that refuses to harmonise. This paper delves into the computational mechanisms underpinning these misunderstandings through the lens of the broken Lorenz system—a continuous dynamical model. By manipulating a specific parameter regime, we induce bistability within the Lorenz equations, thereby confining trajectories to distinct attractors based on initial conditions. This mirrors the persistence of divergent interpretations that often result in misunderstandings. Our simulations reveal that differing prior beliefs between interlocutors result in misaligned generative models, leading to stable yet divergent states of understanding when exposed to the same percept. Specifically, native speakers equipped with precise (i.e., overconfident) priors expect inputs to align closely with their internal models, thus struggling with unexpected variations. Conversely, non-native speakers with imprecise (i.e., less confident) priors exhibit a greater capacity to adjust and accommodate unforeseen inputs. Our results underscore the important role of generative models in facilitating mutual understanding (i.e., establishing a shared narrative) and highlight the necessity of accounting for multistable dynamics in dyadic interactions.

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Linking fast and slow: The case for generative models

Cited by 3 publications

References 99 publications

Answering, Fast and Slow: Strategy enhancement of visual understanding guided by causality

Answering, Fast and Slow: Strategy enhancement of visual understanding guided by causality

Cohabitation of Intelligence and Systems: Towards Self-reference in Digital Anatomies

A Broken Duet: Multistable Dynamics in Dyadic Interactions

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