基于深度学习的抑郁症音频数据分类

Phanomkorn Homsiang, T. Treebupachatsakul, Komsan Kiatrungrit, Suvit Poomrittigul
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引用次数: 0

摘要

由于许多因素,如感染疾病的焦虑和对社会经济影响的担忧,泰国人已经积累了压力,并有抑郁的风险。抑郁症的诊断主要通过PHQ8、PHQ-9、CES-D等测试进行评估。深度学习技术在医学上的应用已经引起了人们的研究兴趣,并一直在发展。在本研究中,我们尝试通过4种模型架构实现抑郁和非抑郁音频数据集的分类:1D CNN、2D CNN、LSTM和GRU。通过将Daic-woz数据库的波形音频格式(WAV)转换为Melfrequency倒频谱(MFC)。我们完成了4种模型架构的训练和评估,并比较了非增强和增强数据集之间的结果。非数据增强率为95%的1D CNN和数据增强率为75%的2D CNN准确率最高。这些结果证实,人类的声音可以区分抑郁和非抑郁。
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Classification of Depression Audio Data by Deep Learning
Due to many factors such as anxiety from contracting the disease and concern about the socioeconomic impacts, Thai people have accumulated stress and are at risk of depression. The diagnosis of depression can be primarily assessed by testing the assessments such as PHQ8, PHQ-9, and CES-D. The applied deep learning technology in medicine has received research interest and has been developing. In this research, we tried the classification of depression and non-depression audio datasets with the implementation of 4 model architectures: 1D CNN, 2D CNN, LSTM, and GRU. By converting wave audio format (WAV) of Daic-woz database to the Melfrequency cepstrum (MFC). We have done the training and evaluated the 4 model architectures and compared the results between non-augmented and augmented datasets. The highest accuracy was obtained from 1D CNN with a non-data augmentation of 95%, and a 2D CNN with a data augmentation of 75%. These results confirm that human voices can differentiate between depression and non-depression.
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