Increased Cognitive Load Enables Unlearning in Procedural Category Learning

Interventions for drug abuse and other maladaptive habitual behaviors may yield temporary success but are often fragile and relapse is common. This implies that current interventions do not erase or substantially modify the representations that support the underlying addictive behavior-that is, they...

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Veröffentlicht in:	Journal of experimental psychology. Learning, memory, and cognition memory, and cognition, 2018-11, Vol.44 (11), p.1845-1853
Hauptverfasser:	Crossley, Matthew J, Maddox, W. Todd, Ashby, F. Gregory
Format:	Artikel
Sprache:	eng
Schlagworte:	Accuracy Addictive Behavior Behavior Change Brain Hemisphere Functions Classification (Cognitive Process) Cognition - physiology Cognitive Ability Cognitive load Color Correlation Drug Abuse Executive Function Executive Function - physiology Feedback Feedback (Response) Female Formative Feedback Human Human Channel Capacity Humans Interference (Learning) Intervention Learning Learning - physiology Learning Processes Male Memory Models, Psychological Modifications Procedural Knowledge Reaction Time Students Task Analysis Undergraduate Students Universities Visual Perception - physiology Visual Stimuli
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container_end_page	1853
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container_title	Journal of experimental psychology. Learning, memory, and cognition
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creator	Crossley, Matthew J Maddox, W. Todd Ashby, F. Gregory
description	Interventions for drug abuse and other maladaptive habitual behaviors may yield temporary success but are often fragile and relapse is common. This implies that current interventions do not erase or substantially modify the representations that support the underlying addictive behavior-that is, they do not cause true unlearning. One example of an intervention that fails to induce true unlearning comes from Crossley, Ashby, and Maddox (2013, Journal of Experimental Psychology: General), who reported that a sudden shift to random feedback did not cause unlearning of category knowledge obtained through procedural systems, and they also reported results suggesting that this failure is because random feedback is noncontingent on behavior. These results imply the existence of a mechanism that (a) estimates feedback contingency and (b) protects procedural learning from modification when feedback contingency is low (i.e., during random feedback). This article reports the results of an experiment in which increasing cognitive load via an explicit dual task during the random feedback period facilitated unlearning. This result is consistent with the hypothesis that the mechanism that protects procedural learning when feedback contingency is low depends on executive function.
doi_str_mv	10.1037/xlm0000554
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subjects	Accuracy Addictive Behavior Behavior Change Brain Hemisphere Functions Classification (Cognitive Process) Cognition - physiology Cognitive Ability Cognitive load Color Correlation Drug Abuse Executive Function Executive Function - physiology Feedback Feedback (Response) Female Formative Feedback Human Human Channel Capacity Humans Interference (Learning) Intervention Learning Learning - physiology Learning Processes Male Memory Models, Psychological Modifications Procedural Knowledge Reaction Time Students Task Analysis Undergraduate Students Universities Visual Perception - physiology Visual Stimuli
title	Increased Cognitive Load Enables Unlearning in Procedural Category Learning
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