A physical model and sound synthesis method of Chinese Sheng

Wei Kuang; Peifeng Ji; Philip Leistner; Judit Angster; Jun Yang

A physical model and sound synthesis method of Chinese Sheng

Wei Kuang, Peifeng Ji, Philip Leistner, Judit Angster, Jun Yang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

To study the relationship between the physical structure and the timbre of Chinese Sheng, a physical model of Sheng and its sound synthesis method are proposed. Based on the vibration model of reed tongue, the equivalent circuit of Sheng pipe is constructed by considering the transfer matrices of tone hole and tuning slot. By combining the reed and the pipe, a complete physical model of Sheng is built. An experiment system of Sheng is designed to validate the physical model, and physical quantities of sounding Sheng pipe are measured simultaneously by multi-channels. The performance of this model is analyzed by comparing temporal-spectral features and timbre descriptors of measurement and simulation results. It shows that the proposed model simulates the sounding mechanism of Sheng pipe well, and the synthesized sound is able to capture the timbre-related features of real Sheng sound in an accurate way.

Original language	English
Pages (from-to)	628-637
Number of pages	10
Journal	Shengxue Xuebao/Acta Acustica
Volume	41
Issue number	5
Publication status	Published - Sept 1 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 Acta Acustica.

ASJC Scopus Subject Areas

Acoustics and Ultrasonics

Cite this

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abstract = "To study the relationship between the physical structure and the timbre of Chinese Sheng, a physical model of Sheng and its sound synthesis method are proposed. Based on the vibration model of reed tongue, the equivalent circuit of Sheng pipe is constructed by considering the transfer matrices of tone hole and tuning slot. By combining the reed and the pipe, a complete physical model of Sheng is built. An experiment system of Sheng is designed to validate the physical model, and physical quantities of sounding Sheng pipe are measured simultaneously by multi-channels. The performance of this model is analyzed by comparing temporal-spectral features and timbre descriptors of measurement and simulation results. It shows that the proposed model simulates the sounding mechanism of Sheng pipe well, and the synthesized sound is able to capture the timbre-related features of real Sheng sound in an accurate way.",

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AU - Kuang, Wei

AU - Ji, Peifeng

AU - Leistner, Philip

AU - Angster, Judit

AU - Yang, Jun

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AB - To study the relationship between the physical structure and the timbre of Chinese Sheng, a physical model of Sheng and its sound synthesis method are proposed. Based on the vibration model of reed tongue, the equivalent circuit of Sheng pipe is constructed by considering the transfer matrices of tone hole and tuning slot. By combining the reed and the pipe, a complete physical model of Sheng is built. An experiment system of Sheng is designed to validate the physical model, and physical quantities of sounding Sheng pipe are measured simultaneously by multi-channels. The performance of this model is analyzed by comparing temporal-spectral features and timbre descriptors of measurement and simulation results. It shows that the proposed model simulates the sounding mechanism of Sheng pipe well, and the synthesized sound is able to capture the timbre-related features of real Sheng sound in an accurate way.

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A physical model and sound synthesis method of Chinese Sheng

Abstract

Bibliographical note

ASJC Scopus Subject Areas

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