Real-time Implementation of a Physical Model of the Tromba Marina

Silvin Willemsen, Stefania Serafin, Stefan Bilbao, Michele Ducceschi

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Abstrakt

The tromba marina is a medieval bowed monochord instrument. The string of the instrument rests on a rattling bridge that, due to the collision with the body, creates a trumpet-like sound. This paper presents a real-time implementation of a physical model of the tromba marina. The goal of the simulation is to make the instrument accessible to a larger audience. The physical model is implemented using finite-difference time-domain (FDTD) methods and non-iterative collision methods. A real-time implementation of the instrument is also presented. The simulation exhibits brass-like qualities and sounds similar to a real tromba marina, but requires further testing to validate the realism.
OriginalsprogEngelsk
TitelProceedings of the 17th Sound and Music Computing Conference
RedaktørerSimone Spagnol, Andrea Valle
Antal sider8
ForlagAxea sas/SMC Network
Publikationsdatojun. 2020
Sider161-168
ISBN (Elektronisk)978-88-945415-0-2
DOI
StatusUdgivet - jun. 2020
Begivenhed17th Sound and Music Computing Conference - Torino, Italien
Varighed: 24 jun. 202026 jun. 2020
Konferencens nummer: 17
https://smc2020torino.it/uk/

Konference

Konference17th Sound and Music Computing Conference
Nummer17
LandItalien
ByTorino
Periode24/06/202026/06/2020
Internetadresse
NavnProceedings of the Sound and Music Computing Conference
ISSN2518-3672

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