Robust facial expression recognition via lightweight reinforcement learning for rehabilitation robotics

Yifan Chen; Weiming Fan; Hongwei Gao; Jiahui Yu; Zhaojie Ju

doi:10.1007/s11801-025-3293-8

Robust facial expression recognition via lightweight reinforcement learning for rehabilitation robotics

Yifan Chen, Weiming Fan, Hongwei Gao, Jiahui Yu, Zhaojie Ju^*

^*Corresponding author for this work

School of Computing

Research output: Contribution to journal › Article › peer-review

Abstract

This paper proposes a lightweight reinforcement network (LRN) and auxiliary label distribution learning (ALDL) based robust facial expression recognition (FER) method. Our designed representation reinforcement (RR) network mainly comprises two modules, i.e., the RR module and the auxiliary label space construction (ALSC) module. The RR module highlights key feature messaging nodes in feature maps, and ALSC allows multiple labels with different intensities to be linked to one expression. Therefore, LRN has a more robust feature extraction capability when model parameters are greatly reduced, and ALDL is proposed to contribute to the training effect of LRN in the condition of ambiguous training data. We tested our method on FER-Plus and RAF-DB datasets, and the experiment demonstrates the feasibility of our method in practice during rehabilitation robots.

Original language	English
Pages (from-to)	97-104
Number of pages	8
Journal	Optoelectronics Letters
Volume	21
Issue number	2
Early online date	26 Dec 2024
DOIs	https://doi.org/10.1007/s11801-025-3293-8
Publication status	Published - 15 Feb 2025

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title = "Robust facial expression recognition via lightweight reinforcement learning for rehabilitation robotics",

abstract = "This paper proposes a lightweight reinforcement network (LRN) and auxiliary label distribution learning (ALDL) based robust facial expression recognition (FER) method. Our designed representation reinforcement (RR) network mainly comprises two modules, i.e., the RR module and the auxiliary label space construction (ALSC) module. The RR module highlights key feature messaging nodes in feature maps, and ALSC allows multiple labels with different intensities to be linked to one expression. Therefore, LRN has a more robust feature extraction capability when model parameters are greatly reduced, and ALDL is proposed to contribute to the training effect of LRN in the condition of ambiguous training data. We tested our method on FER-Plus and RAF-DB datasets, and the experiment demonstrates the feasibility of our method in practice during rehabilitation robots.",

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AU - Chen, Yifan

AU - Fan, Weiming

AU - Gao, Hongwei

AU - Yu, Jiahui

AU - Ju, Zhaojie

PY - 2025/2/15

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N2 - This paper proposes a lightweight reinforcement network (LRN) and auxiliary label distribution learning (ALDL) based robust facial expression recognition (FER) method. Our designed representation reinforcement (RR) network mainly comprises two modules, i.e., the RR module and the auxiliary label space construction (ALSC) module. The RR module highlights key feature messaging nodes in feature maps, and ALSC allows multiple labels with different intensities to be linked to one expression. Therefore, LRN has a more robust feature extraction capability when model parameters are greatly reduced, and ALDL is proposed to contribute to the training effect of LRN in the condition of ambiguous training data. We tested our method on FER-Plus and RAF-DB datasets, and the experiment demonstrates the feasibility of our method in practice during rehabilitation robots.

AB - This paper proposes a lightweight reinforcement network (LRN) and auxiliary label distribution learning (ALDL) based robust facial expression recognition (FER) method. Our designed representation reinforcement (RR) network mainly comprises two modules, i.e., the RR module and the auxiliary label space construction (ALSC) module. The RR module highlights key feature messaging nodes in feature maps, and ALSC allows multiple labels with different intensities to be linked to one expression. Therefore, LRN has a more robust feature extraction capability when model parameters are greatly reduced, and ALDL is proposed to contribute to the training effect of LRN in the condition of ambiguous training data. We tested our method on FER-Plus and RAF-DB datasets, and the experiment demonstrates the feasibility of our method in practice during rehabilitation robots.

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Robust facial expression recognition via lightweight reinforcement learning for rehabilitation robotics

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