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Searching for effective preprocessing method and CNN based architecture with efficient channel attention on speech emotion recognition

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Veröffentlicht in:Scientific Reports (Nature Publisher Group) vol. 15, no. 1 (2025), p. 32689-32709
1. Verfasser: Kim, Byunggun
Weitere Verfasser: Kwon, Younghun
Veröffentlicht:
Nature Publishing Group
Schlagworte:
Emotions
Fourier transforms
Deep learning
Experiments
Neural networks
Classification
Speech
Filters
Environmental
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Abstract:Recently, Speech emotion recognition (SER) performance has steadily increased as multiple deep learning architectures have adapted. Especially, convolutional neural network (CNN) models with spectrogram data preprocessing are the most popular approach in the SER. However, designing an effective and efficient preprocessing method and a CNN-based model for SER is still ambiguous. Therefore, it needs to search for more concrete preprocessing methods and a CNN-based model for SER. First, to search for a proper frequency-time resolution for SER, we prepare eight different datasets with preprocessing settings. Furthermore, to compensate for the lack of emotional feature resolution, we propose multiple short-term Fourier transform (STFT) preprocessing data augmentation that augments trainable data with all different sizes of windows. Next, because CNN’s channel filters are core to detecting hidden input features, we focus on the channel filters’ effectiveness on SER. To do so, we design several types of architecture that contain a 6-layer CNN model. Also, with efficient channel attention (ECA) that is well known to improve channel feature representation with only a few parameters, we find that it can more efficiently train the channel filters for SER. With two different SER datasets (Interactive Emotional Dyadic Motion Capture, Berlin Emotional Speech Database), increasing the frequency resolution in preprocessing emotional speech can improve emotion recognition performance. Consequently, the CNN-based model with only two ECA blocks can exceed the performance of previous SER models. Especially, with STFT data augmentation, our proposed model achieves the highest performance on SER.
ISSN:2045-2322
DOI:10.1038/s41598-025-19887-7
Quelle:Science Database