利用希尔伯特曲线和卷积神经网络优化语音情感识别

Zijun Yang , Shi Zhou , Lifeng Zhang , Seiichi Serikawa
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引用次数: 0

摘要

在语音情感识别领域,研究人员努力改进表示方法,以提高情感信息捕捉能力。传统的一维时间序列分类法无法表达语音信号中错综复杂的情感模式,在准确性和鲁棒性方面存在挑战。本研究引入了一种创新算法,利用希尔伯特曲线将一维语音数据转换为二维形式,从而提高特征提取的准确性。基于希尔伯特曲线的平铺模块最大限度地利用了希尔伯特曲线排列,从而提高了情感信息的捕捉能力。结果显示,空间效率提高了 23 195 倍像素单位,增强了数据存储能力。所提出的方法的准确率高达 98.73%,超越了传统方法,肯定了其在相同数据集上的卓越情感分类性能。这些实证研究结果凸显了我们提出的方法在推进语音情感识别方面的有效性。
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Optimizing Speech Emotion Recognition with Hilbert Curve and convolutional neural network

In the realm of speech emotion recognition, researchers strive to refine representation methods for improved emotional information capture. Traditional one-dimensional time series classification falls short in expressing intricate emotional patterns present in speech signals, posing challenges in accuracy and robustness. This study introduces an innovative algorithm leveraging Hilbert curves to transform one-dimensional speech data into two-dimensional form, enhancing feature extraction accuracy. A tiling module based on Hilbert curve maximizes Hilbert curve arrangements for improved emotional information capture. Results reveal spatial efficiency gains up to 23,195 times pixel units, enhancing data storage. With an exceptional 98.73% accuracy, the proposed approach traditional methods, affirming its superior emotion classification performance on the same dataset. These empirical findings underscore the effectiveness of our proposed method in advancing speech emotion recognition.

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