EEG-driven automatic generation of emotive music based on transformer.

IF 2.6 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Frontiers in Neurorobotics Pub Date : 2024-08-19 eCollection Date: 2024-01-01 DOI:10.3389/fnbot.2024.1437737
Hui Jiang, Yu Chen, Di Wu, Jinlin Yan
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Abstract

Utilizing deep features from electroencephalography (EEG) data for emotional music composition provides a novel approach for creating personalized and emotionally rich music. Compared to textual data, converting continuous EEG and music data into discrete units presents significant challenges, particularly the lack of a clear and fixed vocabulary for standardizing EEG and audio data. The lack of this standard makes the mapping relationship between EEG signals and musical elements (such as rhythm, melody, and emotion) blurry and complex. Therefore, we propose a method of using clustering to create discrete representations and using the Transformer model to reverse mapping relationships. Specifically, the model uses clustering labels to segment signals and independently encodes EEG and emotional music data to construct a vocabulary, thereby achieving discrete representation. A time series dictionary was developed using clustering algorithms, which more effectively captures and utilizes the temporal and structural relationships between EEG and audio data. In response to the insensitivity to temporal information in heterogeneous data, we adopted a multi head attention mechanism and positional encoding technology to enable the model to focus on information in different subspaces, thereby enhancing the understanding of the complex internal structure of EEG and audio data. In addition, to address the mismatch between local and global information in emotion driven music generation, we introduce an audio masking prediction loss learning method. Our method generates music that Hits@20 On the indicator, a performance of 68.19% was achieved, which improved the score by 4.9% compared to other methods, indicating the effectiveness of this method.

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基于变压器的脑电图驱动自动生成情感音乐。
利用脑电图(EEG)数据的深度特征进行情感音乐创作,为创作个性化和情感丰富的音乐提供了一种新方法。与文本数据相比,将连续的脑电图和音乐数据转换为离散的单元面临着巨大的挑战,尤其是缺乏用于标准化脑电图和音频数据的明确而固定的词汇。这种标准的缺乏使得脑电信号与音乐元素(如节奏、旋律和情感)之间的映射关系变得模糊和复杂。因此,我们提出了一种使用聚类来创建离散表示,并使用 Transformer 模型来逆向映射关系的方法。具体来说,该模型使用聚类标签来分割信号,并对脑电图和情感音乐数据进行独立编码,以构建词汇表,从而实现离散表示。利用聚类算法开发的时间序列字典能更有效地捕捉和利用脑电图与音频数据之间的时间和结构关系。针对异构数据对时间信息不敏感的问题,我们采用了多头关注机制和位置编码技术,使模型能够关注不同子空间的信息,从而增强了对脑电图和音频数据复杂内部结构的理解。此外,针对情感驱动音乐生成过程中局部信息与全局信息不匹配的问题,我们引入了音频掩蔽预测损失学习方法。我们的方法生成的音乐Hits@20 在指标上,达到了68.19%的性能,与其他方法相比,得分提高了4.9%,表明了这种方法的有效性。
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来源期刊
Frontiers in Neurorobotics
Frontiers in Neurorobotics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCER-ROBOTICS
CiteScore
5.20
自引率
6.50%
发文量
250
审稿时长
14 weeks
期刊介绍: Frontiers in Neurorobotics publishes rigorously peer-reviewed research in the science and technology of embodied autonomous neural systems. Specialty Chief Editors Alois C. Knoll and Florian Röhrbein at the Technische Universität München are supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics and the public worldwide. Neural systems include brain-inspired algorithms (e.g. connectionist networks), computational models of biological neural networks (e.g. artificial spiking neural nets, large-scale simulations of neural microcircuits) and actual biological systems (e.g. in vivo and in vitro neural nets). The focus of the journal is the embodiment of such neural systems in artificial software and hardware devices, machines, robots or any other form of physical actuation. This also includes prosthetic devices, brain machine interfaces, wearable systems, micro-machines, furniture, home appliances, as well as systems for managing micro and macro infrastructures. Frontiers in Neurorobotics also aims to publish radically new tools and methods to study plasticity and development of autonomous self-learning systems that are capable of acquiring knowledge in an open-ended manner. Models complemented with experimental studies revealing self-organizing principles of embodied neural systems are welcome. Our journal also publishes on the micro and macro engineering and mechatronics of robotic devices driven by neural systems, as well as studies on the impact that such systems will have on our daily life.
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