Abstract
In dynamic multisensory environments, the perceptual system corrects for discrepancies arising between modalities. For instance, in the ventriloquism aftereffect (VAE), spatial disparities introduced between visual and auditory stimuli lead to a perceptual recalibration of auditory space. Previous research has shown that the VAE is underpinned by multiple recalibration mechanisms tuned to different timescales, however it remains unclear whether these mechanisms use common or distinct spatial reference frames. Here we asked whether the VAE operates in eye- or head-centred reference frames across a range of adaptation timescales, from a few seconds to a few minutes. We developed a novel paradigm for selectively manipulating the contribution of eye- versus head-centred visual signals to the VAE by manipulating auditory locations relative to either the head orientation or the point of fixation. Consistent with previous research, we found both eye- and head-centred frames contributed to the VAE across all timescales. However, we found no evidence for an interaction between spatial reference frames and adaptation duration. Our results indicate that the VAE is underpinned by multiple spatial reference frames that are similarly leveraged by the underlying time-sensitive mechanisms.
Highlights
IntroductionThe human perceptual system integrates sensory information across multiple modalities whilst correcting for sensory discrepancies between those modalities [1]
In dynamic multisensory environments, the human perceptual system integrates sensory information across multiple modalities whilst correcting for sensory discrepancies between those modalities [1]
Spatial bias differences indicate the magnitude of the ventriloquism aftereffect (VAE), with positive values indicating a spatial recalibration in the expected direction of the visual stimulus offset
Summary
The human perceptual system integrates sensory information across multiple modalities whilst correcting for sensory discrepancies between those modalities [1]. Such discrepancies can lead to a perceptual recalibration of the sensory environment. Exposure to temporally offset visual, auditory, and/or tactile stimuli can bias the perception of timing amongst those stimuli so as to reduce the perceived asynchrony [2,3,4]. Spatial discrepancies between audio-visual stimuli induce a spatial recalibration such that the perception of auditory locations is biased in the direction of the visual offset [5,6,7,8,9]: the “ventriloquism aftereffect” (VAE).
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