Integration of sensory information across multiple senses is most likely to occur when signals are spatiotemporally coupled. Yet, recent research on audiovisual rate discrimination indicates that random sequences of light flashes and auditory clicks are integrated optimally regardless of temporal correlation. This may be due to 1) temporal averaging rendering temporal cues less effective; 2) difficulty extracting causal-inference cues from rapidly presented stimuli; or 3) task demands prompting integration without concern for the spatiotemporal relationship between the signals. We conducted a rate-discrimination task (Exp 1), using slower, more random sequences than previous studies, and a separate causal-judgement task (Exp 2). Unisensory ...
To form coherent and reliable multisensory percepts of the environment, human observers have to segr...
The integration of visual and auditory inputs in the human brain works properly only if the componen...
Understanding the mechanisms underlying the human perception of synchrony for simple and complex aud...
<div><p>Integration of sensory information across multiple senses is most likely to occur when signa...
Inferring which signals have a common underlying cause, and hence should be integrated, represents a...
Inferring which signals have a common underlying cause, and hence should be integrated, represents a...
SummaryInferring which signals have a common underlying cause, and hence should be integrated, repre...
In order to understand the world around us, we combine information across the different senses. This...
Humans are equipped with multiple sensory channels that provide both redundant and complementary inf...
Synchrony between events in different senses has long been considered the critical temporal cue for ...
Humans are equipped with multiple sensory channels, jointly providing both redundant and complementa...
Humans are equipped with multiple sensory channels that provide both redundant and complementary inf...
International audienceNeural mechanisms that arbitrate between integrating and segregating multisens...
To form coherent and reliable multisensory percepts of the environment, human observers have to segr...
The integration of visual and auditory inputs in the human brain works properly only if the componen...
Understanding the mechanisms underlying the human perception of synchrony for simple and complex aud...
<div><p>Integration of sensory information across multiple senses is most likely to occur when signa...
Inferring which signals have a common underlying cause, and hence should be integrated, represents a...
Inferring which signals have a common underlying cause, and hence should be integrated, represents a...
SummaryInferring which signals have a common underlying cause, and hence should be integrated, repre...
In order to understand the world around us, we combine information across the different senses. This...
Humans are equipped with multiple sensory channels that provide both redundant and complementary inf...
Synchrony between events in different senses has long been considered the critical temporal cue for ...
Humans are equipped with multiple sensory channels, jointly providing both redundant and complementa...
Humans are equipped with multiple sensory channels that provide both redundant and complementary inf...
International audienceNeural mechanisms that arbitrate between integrating and segregating multisens...
To form coherent and reliable multisensory percepts of the environment, human observers have to segr...
The integration of visual and auditory inputs in the human brain works properly only if the componen...
Understanding the mechanisms underlying the human perception of synchrony for simple and complex aud...