基于脑电图的情绪识别的知识引导量化感知训练

IF 2.6 4区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

Journal of Visual Communication and Image Representation Pub Date : 2025-03-05 DOI:10.1016/j.jvcir.2025.104415

Sheng-hua Zhong , Jiahao Shi , Yi Wang

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引用次数: 0

摘要

情绪识别在许多领域都具有重要的意义。近年来，使用脑电图数据作为输入的模型已经取得了实质性的成果。然而，这些EEG模型日益增加的复杂性提出了实质性的挑战，阻碍了它们在资源有限的环境中的部署。这种情况强调了对有效模型压缩的迫切需要。然而，极端压缩通常会导致模型性能的显著下降。为了解决这个问题，我们提出了一种新的基于脑电图的情感识别任务的知识导向量化感知训练方法。该方法将情绪神经科学的知识融入到量化过程中，强调了前额皮质部分在EEG样本选择过程中的重要性，构建了校准集，成功地提高了量化感知训练技术的性能。实验结果表明，我们提出的框架实现了8位量化，在基于脑电图的情感识别中超越了sota。源代码可从https://github.com/Stewen24/KGCC获得。

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Knowledge-guided quantization-aware training for EEG-based emotion recognition

Emotion recognition is of paramount importance in various domains. In recent years, the use of models that employ electroencephalogram data as input has seen substantial achievements. However, the increasing complexity of these EEG models presents substantial challenges that hinder their deployment in resource-limited environments. This situation emphasizes the critical need for effective model compression. However, extreme compression often leads to significant degradation in model performance. To address this issue, we propose a novel Knowledge-Guided Quantization-Aware Training method for EEG-based emotion recognition task. This method integrates knowledge from emotional neuroscience into the quantization process, emphasizing the importance of the prefrontal cortex part in the EEG sample selection process to construct the calibration set and successfully enhance the performance of Quantization-Aware Training techniques. Experimental results demonstrate that our proposed framework achieves quantization to 8 bits, which leads to surpassing SOTAs in EEG-based emotion recognition. The source code is made available at: https://github.com/Stewen24/KGCC .

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来源期刊

Journal of Visual Communication and Image Representation 工程技术-计算机：软件工程

CiteScore

5.40

自引率

11.50%

发文量

188

审稿时长

9.9 months

期刊介绍： The Journal of Visual Communication and Image Representation publishes papers on state-of-the-art visual communication and image representation, with emphasis on novel technologies and theoretical work in this multidisciplinary area of pure and applied research. The field of visual communication and image representation is considered in its broadest sense and covers both digital and analog aspects as well as processing and communication in biological visual systems.