Following prolonged exposure to asynchronous multisensory signals, the brain adapts to reduce the perceived asynchrony. Here, in three separate experiments, participants performed a synchrony judgment task on audiovisual, audiotactile or visuotactile stimuli and we used inter-trial analyses to examine whether temporal recalibration occurs rapidly on the basis of a single asynchronous trial. Even though all combinations used the same subjects, task and design, temporal recalibration occurred for audiovisual stimuli (i.e., the point of subjective simultaneity depended on the preceding trial’s modality order), but none occurred when the same auditory or visual event was combined with a tactile event. Contrary to findings from prolonged adaptat...
Perception of audiovisual (AV) synchrony is affected by experience with temporal delays between audi...
Our perception of synchrony is malleable. With prolonged exposure to audio-visual asynchrony (adapta...
The human brain exhibits a highly adaptive ability to reduce natural asynchronies between visual and...
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...
Sustained exposure to an asynchronous multisensory signal causes perceived simultaneity to shift in ...
To combine information from different sensory modalities, the brain must deal with considerable temp...
Recent exposure to asynchronous multisensory signals has been shown to shift perceived timing betwee...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Time perception is not precise. Signals encoded in different sensory modalities that arrive within a...
Previous research has revealed the existence of perceptual mechanisms that compensate for slight tem...
In natural scenes, audiovisual events deriving from the same source are synchronized at their origin...
When formulating an estimate of event time, the human sensory system has been shown to possess a deg...
Integration of temporally misaligned sensory information is crucial for constructing a unified perce...
After exposure to asynchronous sound and light stimuli, perceived audio-visual synchrony changes to ...
Perception of audiovisual (AV) synchrony is affected by experience with temporal delays between audi...
Our perception of synchrony is malleable. With prolonged exposure to audio-visual asynchrony (adapta...
The human brain exhibits a highly adaptive ability to reduce natural asynchronies between visual and...
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...
Sustained exposure to an asynchronous multisensory signal causes perceived simultaneity to shift in ...
To combine information from different sensory modalities, the brain must deal with considerable temp...
Recent exposure to asynchronous multisensory signals has been shown to shift perceived timing betwee...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Time perception is not precise. Signals encoded in different sensory modalities that arrive within a...
Previous research has revealed the existence of perceptual mechanisms that compensate for slight tem...
In natural scenes, audiovisual events deriving from the same source are synchronized at their origin...
When formulating an estimate of event time, the human sensory system has been shown to possess a deg...
Integration of temporally misaligned sensory information is crucial for constructing a unified perce...
After exposure to asynchronous sound and light stimuli, perceived audio-visual synchrony changes to ...
Perception of audiovisual (AV) synchrony is affected by experience with temporal delays between audi...
Our perception of synchrony is malleable. With prolonged exposure to audio-visual asynchrony (adapta...
The human brain exhibits a highly adaptive ability to reduce natural asynchronies between visual and...