Abstract
The notion of the temporal window of integration, when applied in a multisensory context, refers to the breadth of the interval across which the brain perceives two stimuli from different sensory modalities as synchronous. It maintains a unitary perception of multisensory events despite physical and biophysical timing differences between the senses. The boundaries of the window can be influenced by attention and past sensory experience. Here we examined whether task demands could also influence the multisensory temporal window of integration. We varied the stimulus onset asynchrony between simple, short-lasting auditory and visual stimuli while participants performed two tasks in separate blocks: a temporal order judgment task that required the discrimination of subtle auditory-visual asynchronies, and a reaction time task to the first incoming stimulus irrespective of its sensory modality. We defined the temporal window of integration as the range of stimulus onset asynchronies where performance was below 75% in the temporal order judgment task, as well as the range of stimulus onset asynchronies where responses showed multisensory facilitation (race model violation) in the reaction time task. In 5 of 11 participants, we observed audio-visual stimulus onset asynchronies where reaction time was significantly accelerated (indicating successful integration in this task) while performance was accurate in the temporal order judgment task (indicating successful segregation in that task). This dissociation suggests that in some participants, the boundaries of the temporal window of integration can adaptively recalibrate in order to optimize performance according to specific task demands.
Highlights
The age-old estimation of how far away a lightning strike is, involves counting the seconds between the flash of light and the subsequent clap or rumble of thunder
The fact that the ‘‘visual-first’’ temporal window of integration (TWI) boundary defined by the temporal order judgment (TOJ) task is slightly closer to physical simultaneity than that defined by the reaction time (RT) task suggests that, on average, participants may adapt the width of their TWI to optimize performance
Analyzing the performance of individual participants confirmed that some displayed TWI malleability in response to task demands
Summary
The age-old estimation of how far away a lightning strike is, involves counting the seconds between the flash of light and the subsequent clap or rumble of thunder. We remain unaware of the subtle differences in arrival time of sound and light, and perceive these stimuli as simultaneous This ability to accommodate some degree of asynchrony between the senses to allow for the unitary perception of multisensory events has been termed the temporal window of integration (TWI) [1,2,3]. Providing participants with feedback on their performance in an audiovisual temporal order judgment (TOJ) task improves their ability to discriminate subtle asynchronies between the visual and the auditory stimuli, narrowing the window [15]. To test the influence of task goals on the TWI, we assessed whether participants would be able to accurately discriminate the order of stimuli in the TOJ task while showing significant acceleration of responses in the RT task at the same stimulus onset asynchronies (SOA)
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