Abstract
In natural vision, visual scenes consist of individual items (e.g., trees) and global properties of items as a whole (e.g., forest). These different levels of representations can all contribute to perception, natural scene understanding, sensory memory, working memory, and long-term memory. Despite these various hierarchical representations across perception and cognition, the nature of the global representations has received considerably less attention in empirical research on working memory than item representations. The present study aimed to understand the perceptual root of the configural information retained in Visual Short-term Memory (VSTM). Specifically, we assessed whether configural VSTM was related to holistic face processing across participants using an individual differences approach. Configural versus item encoding in VSTM was assessed using Xie and Zhang’s (2017) dual-trace Signal Detection Theory model in a change detection task for orientation. Configural face processing was assessed using Le Grand composite face effect (CFE). In addition, overall face recognition was assessed using Glasgow Face Matching Test (GFMT). Across participants, holistic face encoding, but not face recognition accuracy, predicted configural information, but not item information, retained in VSTM. Together, these findings suggest that configural encoding in VSTM may have a perceptual root.
Highlights
Reviewed by: Qi-Yang Nie, Sun Yat-sen University, China Timothy Michael Ellmore, City College of New York (CUNY), United States
The present study has assessed whether configural information, one kind of global representations, retained in Visual Short-term Memory (VSTM) is related to overall holistic processing in vision
Given the hierarchical nature of visual representations in natural vision, it is essential for VSTM to retain hierarchical representations such as item and configural information
Summary
Reviewed by: Qi-Yang Nie, Sun Yat-sen University, China Timothy Michael Ellmore, City College of New York (CUNY), United States. Visual scenes often consist of individual items (e.g., trees) and global emergent properties of items as a whole (e.g., forest) These different levels of representations can all contribute to perception (Navon and Norman, 1983; Kimchi, 1992), natural scene understanding (e.g., Greene and Oliva, 2009), sensory memory (Cappiello and Zhang, 2016), visual short-term memory (Brady et al, 2011; Tanaka et al, 2012; Orhan et al, 2013; Nie et al, 2017), and long-term memory (Hunt and Einstein, 1981; Yonelinas, 2002). Experimental manipulation of configural information at retrieval could either impair or facilitate VSTM for item information
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
