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Neuroscientific model of motivational process

Authors
Kim, Sung-il
Issue Date
4-3월-2013
Publisher
FRONTIERS MEDIA SA
Keywords
motivation; neuroeducation; educational neuroscience; reward; value; goal; decision-making; self-regulation
Citation
FRONTIERS IN PSYCHOLOGY, v.4
Indexed
SCOPUS
Journal Title
FRONTIERS IN PSYCHOLOGY
Volume
4
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/103757
DOI
10.3389/fpsyg.2013.00098
ISSN
1664-1078
Abstract
Considering the neuroscientific findings on reward, learning, value, decision-making, and cognitive control, motivation can be parsed into three sub processes, a process of generating motivation, a process of maintaining motivation, and a process of regulating motivation. I propose a tentative neuroscientific model of motivational processes which consists of three distinct but continuous sub processes, namely reward-driven approach, value-based decision-making, and goal-directed control. Reward-driven approach is the process in which motivation is generated by reward anticipation and selective approach behaviors toward reward. This process recruits the ventral striatum (reward area) in which basic stimulus-action association is formed, and is classified as an automatic motivation to which relatively less attention is assigned. By contrast, value-based decision-making is the process of evaluating various outcomes of actions, learning through positive prediction error, and calculating the value continuously. The striatum and the orbitofrontal cortex (valuation area) play crucial roles in sustaining motivation. Lastly, the goal-directed control is the process of regulating motivation through cognitive control to achieve goals. This consciously controlled motivation is associated with higher-level cognitive functions such as planning, retaining the goal, monitoring the performance, and regulating action. The anterior cingulate cortex (attention area) and the dorsolateral prefrontal cortex (cognitive control area) are the main neural circuits related to regulation of motivation. These three sub processes interact with each other by sending reward prediction error signals through dopaminergic pathway from the striatum and to the prefrontal cortex. The neuroscientific model of motivational process suggests several educational implications with regard to the generation, maintenance, and regulation of motivation to learn in the learning environment.
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Kim, Sung il
사범대학 (교육학과)
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