小提琴琴弓技术分类的机器学习方法:IMU和MOCAP系统的比较

D. Dalmazzo, S. Tassani, R. Ramírez
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引用次数: 6

摘要

动作捕捉(MOCAP)系统已被用于分析生物医学、运动、康复和音乐领域的身体运动和姿势。为了比较低成本的运动跟踪设备(例如Myo)与MOCAP系统在音乐表演中的精度,我们记录了一位顶级专业小提琴家执行四种基本弓弦技术(即dsamactach、martel、Spiccato和Ricochet)的MOCAP和Myo数据。使用记录的数据,我们应用机器学习技术来训练模型来分类四种弯曲技术。尽管MOCAP和低成本数据之间存在内在差异,但基于myo的分类器的准确率略高于基于MOCAP的分类器。这一结果表明,基于低成本技术开发音乐手势学习应用程序是可能的,可以在家庭环境中用于自学从业者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Machine Learning Approach to Violin Bow Technique Classification: a Comparison Between IMU and MOCAP systems
Motion Capture (MOCAP) Systems have been used to analyze body motion and postures in biomedicine, sports, rehabilitation, and music. With the aim to compare the precision of low-cost devices for motion tracking (e.g. Myo) with the precision of MOCAP systems in the context of music performance, we recorded MOCAP and Myo data of a top professional violinist executing four fundamental bowing techniques (i.e. Détaché, Martelé, Spiccato and Ricochet). Using the recorded data we applied machine learning techniques to train models to classify the four bowing techniques. Despite intrinsic differences between the MOCAP and low-cost data, the Myo-based classifier resulted in slightly higher accuracy than the MOCAP-based classifier. This result shows that it is possible to develop music-gesture learning applications based on low-cost technology which can be used in home environments for self-learning practitioners.
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