TY - JOUR
T1 - Bridging the gap between visual temporary memory and working memory
T2 - The role of stimuli distinctiveness
AU - Shoval, Roy
AU - Luria, Roy
AU - Makovski, Tal
N1 - Publisher Copyright:
© 2019 American Psychological Association.
PY - 2020/7
Y1 - 2020/7
N2 - Visual working memory (VWM) is traditionally assumed to be immune to proactive interference (PI). However, in a recent study (Endress & Potter, 2014), performance in a visual memory task was superior when all items were unique and hence interference from previous trials was impossible, compared to a standard condition in which a limited set of repeating items was used and stimuli from previous trials could interfere with the current trial. Furthermore, when all the items were unique, the estimated memory capacity far exceeded typical capacity estimates. Consequently, the researchers suggested the existence of a separate memory buffer, the "temporary memory, " which has an unbounded capacity for meaningful items. However, before accepting this conclusion, methodological differences between the repeatedunique procedure and typical estimates of VWM should be considered. Here, we tested the extent to which the exceptional set of heterogeneous, complex, meaningful real-world objects contributed to the large PI in the repeated-unique procedure. Thus, the same paradigm was employed with a set of real-world objects and with homogenous sets (e.g., houses, faces) in which the items were meaningful, yet less visually distinct, and participants had to rely on subtle visual details to perform the task. The results revealed a large PI effect for real-world heterogeneous objects, but substantially smaller effects for the homogenous sets. These findings suggest that there is no need to postulate a new memory buffer. Instead, we suggest that VWM capacity and vulnerability to PI are highly influenced by task characteristics, and specifically, by the stimuli distinctiveness.
AB - Visual working memory (VWM) is traditionally assumed to be immune to proactive interference (PI). However, in a recent study (Endress & Potter, 2014), performance in a visual memory task was superior when all items were unique and hence interference from previous trials was impossible, compared to a standard condition in which a limited set of repeating items was used and stimuli from previous trials could interfere with the current trial. Furthermore, when all the items were unique, the estimated memory capacity far exceeded typical capacity estimates. Consequently, the researchers suggested the existence of a separate memory buffer, the "temporary memory, " which has an unbounded capacity for meaningful items. However, before accepting this conclusion, methodological differences between the repeatedunique procedure and typical estimates of VWM should be considered. Here, we tested the extent to which the exceptional set of heterogeneous, complex, meaningful real-world objects contributed to the large PI in the repeated-unique procedure. Thus, the same paradigm was employed with a set of real-world objects and with homogenous sets (e.g., houses, faces) in which the items were meaningful, yet less visually distinct, and participants had to rely on subtle visual details to perform the task. The results revealed a large PI effect for real-world heterogeneous objects, but substantially smaller effects for the homogenous sets. These findings suggest that there is no need to postulate a new memory buffer. Instead, we suggest that VWM capacity and vulnerability to PI are highly influenced by task characteristics, and specifically, by the stimuli distinctiveness.
KW - Heterogeneity
KW - Proactive interference
KW - Temporary memory
KW - Visual working memory
UR - http://www.scopus.com/inward/record.url?scp=85081687874&partnerID=8YFLogxK
U2 - 10.1037/xlm0000778
DO - 10.1037/xlm0000778
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C2 - 31647285
AN - SCOPUS:85081687874
SN - 0278-7393
VL - 46
SP - 1258
EP - 1269
JO - Journal of Experimental Psychology: Learning Memory and Cognition
JF - Journal of Experimental Psychology: Learning Memory and Cognition
IS - 7
ER -