Litcius/Paper detail

Parametric Representation of Tactile Numerosity in Working Memory

Işıl Uluç, Lisa A. Velenosi, Timo Torsten Schmidt, Felix Blankenburg

2020eNeuro15 citationsDOIOpen Access PDF

Abstract

Estimated numerosity perception is processed in an approximate number system (ANS) that resembles the perception of a continuous magnitude. The ANS consists of a right lateralized frontoparietal network comprising the lateral prefrontal cortex (LPFC) and the intraparietal sulcus. Although the ANS has been extensively investigated, only a few studies have focused on the mental representation of retained numerosity estimates. Specifically, the underlying mechanisms of estimated numerosity working memory (WM) is unclear. Besides numerosities, as another form of abstract quantity, vibrotactile WM studies provide initial evidence that the right LPFC takes a central role in maintaining magnitudes. In the present fMRI multivariate pattern analysis study, we designed a delayed match-to-numerosity paradigm to test what brain regions retain approximate numerosity memoranda. In line with parametric WM results, our study found numerosity-specific WM representations in the right LPFC as well as in the supplementary motor area and the left premotor cortex extending into the superior frontal gyrus, thus bridging the gap in abstract quantity WM literature.

Topics & Concepts

Numerosity adaptation effectRepresentation (politics)Parametric statisticsWorking memoryComputer scienceCognitive psychologyCommunicationPsychologyNeuroscienceMathematicsPerceptionCognitionStatisticsLawPolitical sciencePoliticsCognitive and developmental aspects of mathematical skillsTactile and Sensory InteractionsVisual perception and processing mechanisms
Parametric Representation of Tactile Numerosity in Working Memory | Litcius