The effect of space on subjective time is mediated by apparent velocity

Storch, Dunja; Zimmermann, Eckart

doi:10.1167/19.14.19

Journal of Vision

2019

DOI: 10.1167/19.14.19

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The effect of space on subjective time is mediated by apparent velocity

Dunja Storch

Eckart Zimmermann

Abstract: In contrast to the intuitive and traditional assumption of a centralized and universal neural clock, many recent studies have provided evidence against this idea. Here, we investigated whether subjective duration is estimated by a mechanism that tracks the trajectory of a moving object. Such a mechanism would integrate over the velocity and the spatial distance the object traveled to derive its duration. We exposed observers to a moving object that covered either a small or large spatial distance. We found tha… Show more

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Cited by 3 publications

References 46 publications

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Cross-dimensional magnitude interaction is modulated by representational noise: evidence from space–time interaction

Cai

Wang

2021

Psychological Research

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Magnitudes along different dimensions (e.g., space and time) tend to interact with each other in perception, with some magnitude dimensions more susceptible to crossdimensional interference than others. What causes such asymmetries in cross-dimensional interaction is being debated. The current study investigated whether the representational noise of magnitudes modulates the (a)symmetry in space-time interaction. In experiments using different formats of length, we showed that dynamic unfilled lengths result in a higher representational noise than either static unfilled length or static filled length. Correspondingly, we observed that the time-on-space effect was larger for dynamic unfilled lengths than for static unfilled length or static filled length (and it did not differ between the latter two). Further correlational analyses showed that the susceptibility of a target dimension to the influence of a concurrent dimension increased as a function of participants' representational noise in the target dimension (e.g., noisier length representations, a larger effect of stimulus duration on length reproduction). In all, our study showed that the representational noise of space and time modulate the way the two dimensions interact. These findings suggest that cross-dimensional magnitude interactions arise as a result of memory interference, with noisier magnitudes being more prone to being nudged by concurrent magnitudes in other dimensions. Such memory interference can be seen as a result of Bayesian inference with correlated priors between magnitude dimensions.

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Cross-dimensional magnitude interaction is modulated by representational noise: evidence from space–time interaction

Cai

Wang

2021

Psychological Research

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Space-time interference: The asymmetry we get out is the asymmetry we put in

Riemer,

Cai

2024

Neuroscience & Biobehavioral Reviews

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Cross-dimensional interference between time and distance during spatial navigation is mediated by speed representations in intraparietal sulcus and area hMT+

et al. 2022

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The effect of space on subjective time is mediated by apparent velocity

Cited by 3 publications

References 46 publications

Cross-dimensional magnitude interaction is modulated by representational noise: evidence from space–time interaction

Cross-dimensional magnitude interaction is modulated by representational noise: evidence from space–time interaction

Space-time interference: The asymmetry we get out is the asymmetry we put in

Cross-dimensional interference between time and distance during spatial navigation is mediated by speed representations in intraparietal sulcus and area hMT+

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