整合穿戴式传感器数据，提升物联网音乐表演技能

IF 0.9 Q4 TELECOMMUNICATIONS Internet Technology Letters Pub Date : 2024-03-14 DOI:10.1002/itl2.517

Xiaochan Li, Yi Shi, Daohua Pan

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引用次数: 0

摘要

本研究整合了多节点可穿戴传感器数据，以提高音乐表演技能。在时频特征提取过程中使用了加窗方法。通过结合核函数，我们提出了一种广义判别分析（GDA）方法，以减少高维传感器特征，同时保留性能特征。实验证明，与线性判别分析（准确率为 82.39%）和主成分分析（准确率为 88.56%）相比，在对音乐表演者的动作进行分类时，所提出的 GDA 方法实现了更高的准确率（92.71%）、精确率（90.54%）和召回率（88.68%）。对可穿戴传感器数据的综合分析有助于提供全面的反馈，从而提高各种音乐表演技能的熟练程度。

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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Wearing sensor data integration for promoting the performance skills of music in IoT

This study integrates multi-node wearable sensor data to improve music performance skills. A window-adding method is used during time-frequency feature extraction. By incorporating kernel functions, we present a generalized discriminant analysis (GDA) method to reduce the high-dimensional sensor features while retaining performance traits. Experiments demonstrate that the proposed GDA approach achieves higher accuracy (92.71%), precision (90.54%), and recall (88.68%) compared to linear discriminant analysis (82.39% accuracy) and principal component analysis (88.56% accuracy) in classifying motions performed by music performers. The integrated analysis of wearable sensor data facilitates comprehensive feedback to strengthen proficiency across various music performance skills.

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