The Parietal Cortex in Sensemaking: The Dissociation of Multiple Types of Spatial Information | Academic Article individual record
abstract

According to the data-frame theory, sensemaking is a macrocognitive process in which people try to make sense of or explain their observations by processing a number of explanatory structures called frames until the observations and frames become congruent. During the sensemaking process, the parietal cortex has been implicated in various cognitive tasks for the functions related to spatial and temporal information processing, mathematical thinking, and spatial attention. In particular, the parietal cortex plays important roles by extracting multiple representations of magnitudes at the early stages of perceptual analysis. By a series of neural network simulations, we demonstrate that the dissociation of different types of spatial information can start early with a rather similar structure (i.e., sensitivity on a common metric), but accurate representations require specific goal-directed top-down controls due to the interference in selective attention. Our results suggest that the roles of the parietal cortex rely on the hierarchical organization of multiple spatial representations and their interactions. The dissociation and interference between different types of spatial information are essentially the result of the competition at different levels of abstraction.

authors
author list (cited authors)
Sun, Y., & Wang, H.
publication date
2013
publisher
Hindawi Limited Publisher
keywords
  • Computer Simulation
  • Cognition
  • Neural Networks, Computer
  • Algorithms
  • Time Perception
  • Space Perception
  • Parietal Lobe
  • Mathematics
  • Mental Processes
  • Attention
  • Humans
citation count

5

PubMed ID
23710165
identifier
82467SE
Digital Object Identifier (DOI)
start page
152073
end page
14
volume
2013