After exposure to asynchronous sound and light stimuli, perceived audio-visual synchrony changes to compensate for the asynchrony. Here we investigate to what extent this audio-visual recalibration effect transfers to visual-tactile and audiotactile simultaneity perception in order to infer the mechanisms responsible for temporal recalibration. Results indicate that audio-visual recalibration of simultaneity can transfer to audio-tactile and visual-tactile stimuli depending on the way in which the multisensory stimuli are presented. With presentation of co-located multisensory stimuli, we found a change in the perceptual latency of the visual stimuli. Presenting auditory stimuli through headphones, on the other hand, induced a change in the...
Time perception is not precise. Signals encoded in different sensory modalities that arrive within a...
The importance of multisensory integration for perception and action has long been recognised. Integ...
Human observers acquire information about physical properties of the environment through different s...
After exposure to asynchronous sound and light stimuli, perceived audio-visual synchrony changes to ...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Following prolonged exposure to asynchronous multisensory signals, the brain adapts to reduce the pe...
Prolonged exposure to asynchronous audiovisual stimulus pairs changes the perception of audiovisual ...
Previous research has revealed the existence of perceptual mechanisms that compensate for slight tem...
Recent exposure to asynchronous multisensory signals has been shown to shift perceived timing betwee...
Combining signals across the senses improves precision and speed of perception, although this multis...
Sustained exposure to an asynchronous multisensory signal causes perceived simultaneity to shift in ...
When formulating an estimate of event time, the human sensory system has been shown to possess a deg...
The perception of simultaneity between auditory and visual information is of crucial importance for ...
Crossmodal stimuli can be perceived as being simultaneous even if they are not physically synchronou...
Time perception is not precise. Signals encoded in different sensory modalities that arrive within a...
The importance of multisensory integration for perception and action has long been recognised. Integ...
Human observers acquire information about physical properties of the environment through different s...
After exposure to asynchronous sound and light stimuli, perceived audio-visual synchrony changes to ...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Both physical and physiological transmission times can differ between audition and vision. Under cer...
Following prolonged exposure to asynchronous multisensory signals, the brain adapts to reduce the pe...
Prolonged exposure to asynchronous audiovisual stimulus pairs changes the perception of audiovisual ...
Previous research has revealed the existence of perceptual mechanisms that compensate for slight tem...
Recent exposure to asynchronous multisensory signals has been shown to shift perceived timing betwee...
Combining signals across the senses improves precision and speed of perception, although this multis...
Sustained exposure to an asynchronous multisensory signal causes perceived simultaneity to shift in ...
When formulating an estimate of event time, the human sensory system has been shown to possess a deg...
The perception of simultaneity between auditory and visual information is of crucial importance for ...
Crossmodal stimuli can be perceived as being simultaneous even if they are not physically synchronou...
Time perception is not precise. Signals encoded in different sensory modalities that arrive within a...
The importance of multisensory integration for perception and action has long been recognised. Integ...
Human observers acquire information about physical properties of the environment through different s...