Music Curriculum Research Using a Large Language Model, Cloud Computing and Data Mining Technologies

IF 0.7 4区计算机科学 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Journal of Web Engineering Pub Date : 2024-03-01 DOI:10.13052/jwe1540-9589.2323

Yuting Shang

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Abstract

This paper presents a method to enhance the scientific nature of the music curriculum model by integrating a large language model, cloud computing and data mining technology for the analysis of the music teaching curriculum model. To maintain the integrity of the mixing matrix while employing the frequency hopping frequency, the paper suggests dividing the mixing matrix into a series of sub-matrices along the vertical time axis. This approach transforms wideband music signal processing into a narrowband processing problem. Additionally, two hybrid matrix estimation algorithms are proposed in this paper using underdetermined conditions. Furthermore, utilizing the estimated mixing matrix and the detected time-frequency support domain, the paper employs the subspace projection algorithm for underdetermined blind separation of music signals in the time-frequency domain. This procedure, along with the integration of the estimated direction of arrival (DoA), enables the completion of frequency-hopping network station music signal sorting. Extensive simulation teaching demonstrates that the music curriculum model proposed in this paper, based on a large language model, cloud computing and data mining technologies, significantly enhances the quality of modern music teaching.

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利用大语言模型、云计算和数据挖掘技术开展音乐课程研究

本文通过整合大语言模型、云计算和数据挖掘技术对音乐教学课程模型进行分析，提出了一种增强音乐课程模型科学性的方法。为了在采用跳频的同时保持混频矩阵的完整性，本文建议沿垂直时间轴将混频矩阵划分为一系列子矩阵。这种方法将宽带音乐信号处理转化为窄带处理问题。此外，本文还提出了两种使用欠定条件的混合矩阵估计算法。此外，利用估计的混合矩阵和检测到的时频支持域，本文采用子空间投影算法在时频域对音乐信号进行欠定盲分离。该程序与估计的到达方向（DoA）相结合，能够完成跳频网络电台音乐信号的分类。大量的仿真教学证明，本文提出的基于大语言模型、云计算和数据挖掘技术的音乐课程模型能显著提升现代音乐教学质量。

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

Journal of Web Engineering 工程技术-计算机：理论方法

CiteScore

1.80

自引率

12.50%

发文量

审稿时长

9 months

期刊介绍： The World Wide Web and its associated technologies have become a major implementation and delivery platform for a large variety of applications, ranging from simple institutional information Web sites to sophisticated supply-chain management systems, financial applications, e-government, distance learning, and entertainment, among others. Such applications, in addition to their intrinsic functionality, also exhibit the more complex behavior of distributed applications.