The neural basis of temporal individuation and its capacity limits in the human brain

Abstract: Individuation refers to individuals' use of spatial and temporal properties to register an object as a distinct perceptual event relative to other stimuli. Although behavioral studies have examined both spatial and temporal individuation, neuroimaging investigations of individuation have been restricted to the spatial domain and at relatively late stages of information processing. In this study we used univariate and multivoxel pattern analyses of functional magnetic resonance imaging data to identify brain re… Show more

“…To our knowledge, there is only one previous study that has investigated RB using scene stimuli. This was an fMRI study conducted by Naughtin, Tamber-Rosenau, and Dux (2013), which looked at the neural correlates of token individuation and used scene stimuli because they are associated with a reliable pattern of brain activation (in the PPA). Naughtin et al (2013) asked participants to report whether a three-target RSVP sequence contained a repeated scene, no repetition, or was a Bcatch^trial on which only two scenes were presented.…”

“…This implies that rapidly changing visual input affects processing of objects and words differently to scenes. Some researchers have speculated that RB reflects a heuristic employed by the visual system to deal with its limited rate of temporal updating (Chun, 1997;Kanwisher, 1987;Naughtin et al, 2013). That is, if two identical stimuli appear in the same spatial location at almost the same time, the system Bassumes^that this is the same object, because under most circumstances that is the case-typically, any temporal discontinuity in perceiving the object is due to the observer looking away or blinking, but the object itself has not moved or changed.…”

Two scenes or not two scenes: The effects of stimulus repetition and view-similarity on scene categorization from brief displays

“…To our knowledge, there is only one previous study that has investigated RB using scene stimuli. This was an fMRI study conducted by Naughtin, Tamber-Rosenau, and Dux (2013), which looked at the neural correlates of token individuation and used scene stimuli because they are associated with a reliable pattern of brain activation (in the PPA). Naughtin et al (2013) asked participants to report whether a three-target RSVP sequence contained a repeated scene, no repetition, or was a Bcatch^trial on which only two scenes were presented.…”

“…This implies that rapidly changing visual input affects processing of objects and words differently to scenes. Some researchers have speculated that RB reflects a heuristic employed by the visual system to deal with its limited rate of temporal updating (Chun, 1997;Kanwisher, 1987;Naughtin et al, 2013). That is, if two identical stimuli appear in the same spatial location at almost the same time, the system Bassumes^that this is the same object, because under most circumstances that is the case-typically, any temporal discontinuity in perceiving the object is due to the observer looking away or blinking, but the object itself has not moved or changed.…”

Two scenes or not two scenes: The effects of stimulus repetition and view-similarity on scene categorization from brief displays

“…Because the RB and AB can be independently affected by a variety of manipulations (Chun, 1997;Dux & Marois, 2007), it is likely that there are multiple attentional capacity limits or bottlenecks even within the realm of temporal attention. Though to our knowledge the neural bases of RB and AB have not been directly compared in a single paradigm, investigation of the neural basis of RB suggests that its capacity limit may be instantiated in distinct parts of the cortex from the capacity limit underlying the AB and SIB, further supporting the view that there are multiple temporal attentional bottlenecks (Naughtin, Tamber-Rosenau, & Dux, 2014).…”

Attentional Capacity and Limitations

Gift from statistical learning: Visual statistical learning enhances memory for sequence elements and impairs memory for items that disrupt regularities