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Main Authors: Luo, Dezhi, Gao, Qingying, Deng, Hokin
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.20835
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author Luo, Dezhi
Gao, Qingying
Deng, Hokin
author_facet Luo, Dezhi
Gao, Qingying
Deng, Hokin
contents Spatial world models, representations that support flexible reasoning about spatial relations, are central to developing computational models that could operate in the physical world, but their precise mechanistic underpinnings are nuanced by the borrowing of underspecified or misguided accounts of human cognition. This paper revisits the simulation versus rendering dichotomy and draws on evidence from aphantasia to argue that fine-grained perceptual content is critical for model-based spatial reasoning. Drawing on recent research into the neural basis of visual awareness, we propose that spatial simulation and perceptual experience depend on shared representational geometries captured by higher-order indices of perceptual relations. We argue that recent developments in embodied AI support this claim, where rich perceptual details improve performance on physics-based world engagements. To this end, we call for the development of architectures capable of maintaining structured perceptual representations as a step toward spatial world modelling in AI.
format Preprint
id arxiv_https___arxiv_org_abs_2510_20835
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Rethinking the Simulation vs. Rendering Dichotomy: No Free Lunch in Spatial World Modelling
Luo, Dezhi
Gao, Qingying
Deng, Hokin
Neurons and Cognition
Spatial world models, representations that support flexible reasoning about spatial relations, are central to developing computational models that could operate in the physical world, but their precise mechanistic underpinnings are nuanced by the borrowing of underspecified or misguided accounts of human cognition. This paper revisits the simulation versus rendering dichotomy and draws on evidence from aphantasia to argue that fine-grained perceptual content is critical for model-based spatial reasoning. Drawing on recent research into the neural basis of visual awareness, we propose that spatial simulation and perceptual experience depend on shared representational geometries captured by higher-order indices of perceptual relations. We argue that recent developments in embodied AI support this claim, where rich perceptual details improve performance on physics-based world engagements. To this end, we call for the development of architectures capable of maintaining structured perceptual representations as a step toward spatial world modelling in AI.
title Rethinking the Simulation vs. Rendering Dichotomy: No Free Lunch in Spatial World Modelling
topic Neurons and Cognition
url https://arxiv.org/abs/2510.20835