Cross-modal temporal recalibration describes a shift in the point of subjective simultaneity (PSS) between 2 events following repeated exposure to asynchronous cross-modal inputs—the adaptors. Previous research suggested that audiovisual recalibration is insensitive to the spatial relationship between the adaptors. Here we show that audiovisual recalibration can be driven by cross-modal spatial grouping. Twelve participants adapted to alternating trains of lights and tones. Spatial position was manipulated, with alternating sequences of a light then a tone, or a tone then a light, presented on either side of fixation (e.g., left tone—left light—right tone—right light, etc.). As the events were evenly spaced in time, in the absence of spatia...
Following prolonged exposure to asynchronous multisensory signals, the brain adapts to reduce the pe...
Our perception of synchrony is malleable. With prolonged exposure to audio-visual asynchrony (adapta...
Sustained exposure to an asynchronous multisensory signal causes perceived simultaneity to shift in ...
Cross-modal temporal recalibration describes a shift in the point of subjective simultaneity (PSS) b...
Recent exposure to asynchronous multisensory signals has been shown to shift perceived timing betwee...
The perception of simultaneity between auditory and visual information is of crucial importance for ...
Integration of temporally misaligned sensory information is crucial for constructing a unified perce...
The brain is able to realign asynchronous signals that approximately coincide in both space and time...
Combining signals across the senses improves precision and speed of perception, although this multis...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensate for t...
<div><p>Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensa...
Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensate for t...
Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensate for t...
In natural scenes, audiovisual events deriving from the same source are synchronized at their origin...
Following prolonged exposure to asynchronous multisensory signals, the brain adapts to reduce the pe...
Our perception of synchrony is malleable. With prolonged exposure to audio-visual asynchrony (adapta...
Sustained exposure to an asynchronous multisensory signal causes perceived simultaneity to shift in ...
Cross-modal temporal recalibration describes a shift in the point of subjective simultaneity (PSS) b...
Recent exposure to asynchronous multisensory signals has been shown to shift perceived timing betwee...
The perception of simultaneity between auditory and visual information is of crucial importance for ...
Integration of temporally misaligned sensory information is crucial for constructing a unified perce...
The brain is able to realign asynchronous signals that approximately coincide in both space and time...
Combining signals across the senses improves precision and speed of perception, although this multis...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensate for t...
<div><p>Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensa...
Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensate for t...
Temporal recalibration of cross-modal synchrony has been proposed as a mechanism to compensate for t...
In natural scenes, audiovisual events deriving from the same source are synchronized at their origin...
Following prolonged exposure to asynchronous multisensory signals, the brain adapts to reduce the pe...
Our perception of synchrony is malleable. With prolonged exposure to audio-visual asynchrony (adapta...
Sustained exposure to an asynchronous multisensory signal causes perceived simultaneity to shift in ...