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초록
This paper conceptualizes emotion regulation (ER) as a dynamic, closed-loop control system composed of three interlinked stages: motivation, execution, and monitoring. In contrast to traditional models that assume static and sequential progression, we propose a recursive ER framework where emotional goals, strategy implementation, and feedback evaluation interact continuously to maintain affective homeostasis. The first part of the paper delineates the psychological architecture of each stage and examines their dynamic inter-dependencies. The second part introduces computational analogies that map core ER processes onto machine learning mechanisms such as loss functions, policy selection, and prediction error-based updating. Drawing on this analogy, ER is described as a self-correcting system that recalibrates emotional states through threshold-sensitive adjustments. This framework provides a unifying model for understanding ER as a feedback-driven, adaptive process, offering new avenues for theory-building, simulation, and clinical modeling within affective science and computational approaches to emotional control.
키워드
- 제목
- Toward a computational analogy of emotion regulation: A closed-loop framework integrating motivation, execution, and feedback
- 저자
- Chen, Baoxun; Gao, Tianque; Deng, Boyin; Du, Yifan; Kong, Anhui; Liu, Zhaoting; Niu, Sijia; Huang, Yilun; Muhlert, Nils; He, Zhenhong
- 발행일
- 2026-07
- 유형
- Article
- 권
- 267