Rescaling of Distance Judgments With Geometric and Contextual Changes
Ernest Simons, Caswell Barry, Caroline Whyatt, Rebecca Knight

TL;DR
The study shows that human distance judgments change with environmental manipulations, similar to rodent grid cell behavior.
Contribution
The study links rodent grid cell responses to human spatial behavior under environmental changes.
Findings
Environmental expansions caused significant overestimations in human distance judgments.
Local manipulations reduced accuracy near the altered area.
Novel environments also led to overestimations in distance judgments.
Abstract
Grid cells have been identified in the entorhinal cortex of rodents and humans, as well as other mammals. In rodents, these “distance computing” neurons exhibit altered firing fields in response to environmental manipulations, including changes to geometry or specific contextual cues (e.g., color). The current study investigated whether these neurophysiological observations in rodents could predict human behavior in a distance judgment task under various environmental manipulations. Participants (n = 51) completed 22 trials involving distance traversal, memorisation, and distance replication across five experimental conditions: control (no manipulation), contextual manipulation (novel environment), and geometric manipulations (local expansion and contraction; global expansion and contraction). Results demonstrated that environmental expansions led to significant overestimations in…
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Taxonomy
TopicsMemory and Neural Mechanisms · Action Observation and Synchronization · Neural dynamics and brain function
