Emotion recognition of human speech using deep learning method and MFCC features

Q3 Computer Science

Radioelectronic and Computer Systems Pub Date : 2022-11-29 DOI:10.32620/reks.2022.4.13

Sumon Kumar Hazra, Romana Rahman Ema, S. Galib, Shalauddin Kabir, Nasim Adnan

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引用次数: 2

Abstract

Subject matter: Speech emotion recognition (SER) is an ongoing interesting research topic. Its purpose is to establish interactions between humans and computers through speech and emotion. To recognize speech emotions, five deep learning models: Convolution Neural Network, Long-Short Term Memory, Artificial Neural Network, Multi-Layer Perceptron, Merged CNN, and LSTM Network (CNN-LSTM) are used in this paper. The Toronto Emotional Speech Set (TESS), Surrey Audio-Visual Expressed Emotion (SAVEE) and Ryerson Audio-Visual Database of Emotional Speech and Song (RAVDESS) datasets were used for this system. They were trained by merging 3 ways TESS+SAVEE, TESS+RAVDESS, and TESS+SAVEE+RAVDESS. These datasets are numerous audios spoken by both male and female speakers of the English language. This paper classifies seven emotions (sadness, happiness, anger, fear, disgust, neutral, and surprise) that is a challenge to identify seven emotions for both male and female data. Whereas most have worked with male-only or female-only speech and both male-female datasets have found low accuracy in emotion detection tasks. Features need to be extracted by a feature extraction technique to train a deep-learning model on audio data. Mel Frequency Cepstral Coefficients (MFCCs) extract all the necessary features from the audio data for speech emotion classification. After training five models with three datasets, the best accuracy of 84.35 % is achieved by CNN-LSTM with the TESS+SAVEE dataset.

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基于深度学习方法和MFCC特征的人类语音情感识别

主题：言语情感识别（SER）是一个正在进行的有趣的研究课题。它的目的是通过语音和情感建立人与计算机之间的互动。为了识别语音情绪，本文使用了五种深度学习模型：卷积神经网络、长短期记忆、人工神经网络、多层感知器、合并CNN和LSTM网络（CNN-LSTM）。该系统使用了多伦多情感语音集（TESS）、萨里视听表达情感（SAVE）和瑞尔森情感语音和歌曲视听数据库（RAVDESS）数据集。他们通过合并TESS+SAVEE、TESS+RAVESS和TESS+SSAVE+RAVESS三种方式进行训练。这些数据集是讲英语的男性和女性所说的大量音频。本文对七种情绪（悲伤、快乐、愤怒、恐惧、厌恶、中性和惊讶）进行了分类，这对识别男性和女性数据的七种情绪是一个挑战。然而，大多数人都使用了仅限男性或仅限女性的语音，而且男性和女性数据集在情绪检测任务中的准确性都很低。需要通过特征提取技术来提取特征，以在音频数据上训练深度学习模型。Mel频率倒谱系数（MFCC）从音频数据中提取所有必要的特征，用于语音情感分类。在用三个数据集训练五个模型后，使用TESS+SAVE数据集的CNN-LSTM获得了84.35%的最佳准确率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

2 weeks