Real-time implementation of the shamisen using finite difference schemes

Titas  Lasickas; Silvin Willemsen; Stefania Serafin

doi:10.5281/zenodo.5042901

Real-time implementation of the shamisen using finite difference schemes

Titas Lasickas^*, Silvin Willemsen, Stefania Serafin

^*Kontaktforfatter

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

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Abstract

The shamisen is a Japanese three-stringed lute. It is a chordophone that has the front of the body covered by a tensioned membrane which greatly contributes to the distinct sound of the instrument. Although the shamisen is a traditional Japanese instrument, it is a rare instrument in the rest of the world, making it mostly inaccessible by the majority of artists. To our knowledge, no physically modelled synthesizer of the shamisen is available, forcing producers and musicians to use samples. The objective of this paper is to make the shamisen’s distinct sound more accessible to digital music artists. The real-time implementation of the shamisen physical model is presented along with the derivation of solution using the finite-difference time-domain (FDTD) methods. The digital instrument sounds mostly as intended, though lacking the shamisen’s distinct buzzing sound requiring further development.

Originalsprog	Engelsk
Titel	Proceedings of the 18th Sound and Music Computing (SMC) Conference
Redaktører	Davide Andrea Mauro, Simone Spagnol, Andrea Valle
Antal sider	8
Forlag	Sound and Music Computing Network
Publikationsdato	8 sep. 2021
Sider	100-107
ISBN (Elektronisk)	978-88-945415-4-0
DOI	https://doi.org/10.5281/zenodo.5042901
Status	Udgivet - 8 sep. 2021
Begivenhed	18th Sound and Music Computing Conference - University of Turin (virtual), Turin, Italien Varighed: 29 jun. 2021 → 1 jul. 2021 Konferencens nummer: 18 https://smc2021conference.org/

Konference

Konference	18th Sound and Music Computing Conference
Nummer	18
Lokation	University of Turin (virtual)
Land/Område	Italien
By	Turin
Periode	29/06/2021 → 01/07/2021
Internetadresse	https://smc2021conference.org/

Navn	Proceedings of the Sound and Music Computing Conference
ISSN	2518-3672

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10.5281/zenodo.5042901Licens: CC BY 4.0

SMC_2021_paper_41Forlagets udgivne version, 0,98 MBLicens: CC BY 3.0

AUB Link

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18th Sound and Music Computing Conference, SMC 2021
Silvin Willemsen (Deltager)
29 jun. 2021 → 1 jul. 2021
Aktivitet: Deltagelse i faglig begivenhed › Organisering af eller deltagelse i konference

Citationsformater

Lasickas, Titas ; Willemsen, Silvin ; Serafin, Stefania. / Real-time implementation of the shamisen using finite difference schemes. Proceedings of the 18th Sound and Music Computing (SMC) Conference. red. / Davide Andrea Mauro ; Simone Spagnol ; Andrea Valle. Sound and Music Computing Network, 2021. s. 100-107 (Proceedings of the Sound and Music Computing Conference).

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title = "Real-time implementation of the shamisen using finite difference schemes",

abstract = "The shamisen is a Japanese three-stringed lute. It is a chordophone that has the front of the body covered by a tensioned membrane which greatly contributes to the distinct sound of the instrument. Although the shamisen is a traditional Japanese instrument, it is a rare instrument in the rest of the world, making it mostly inaccessible by the majority of artists. To our knowledge, no physically modelled synthesizer of the shamisen is available, forcing producers and musicians to use samples. The objective of this paper is to make the shamisen{\textquoteright}s distinct sound more accessible to digital music artists. The real-time implementation of the shamisen physical model is presented along with the derivation of solution using the finite-difference time-domain (FDTD) methods. The digital instrument sounds mostly as intended, though lacking the shamisen{\textquoteright}s distinct buzzing sound requiring further development.",

keywords = "physical modelling, shamisen, finite difference, real-time",

author = "Titas Lasickas and Silvin Willemsen and Stefania Serafin",

year = "2021",

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doi = "10.5281/zenodo.5042901",

language = "English",

series = "Proceedings of the Sound and Music Computing Conference",

publisher = "Sound and Music Computing Network",

pages = "100--107",

editor = "Mauro, {Davide Andrea} and Simone Spagnol and Andrea Valle",

booktitle = "Proceedings of the 18th Sound and Music Computing (SMC) Conference",

note = "18th Sound and Music Computing Conference, SMC ; Conference date: 29-06-2021 Through 01-07-2021",

url = "https://smc2021conference.org/",

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Lasickas, T, Willemsen, S & Serafin, S 2021, Real-time implementation of the shamisen using finite difference schemes. i DA Mauro, S Spagnol & A Valle (red), Proceedings of the 18th Sound and Music Computing (SMC) Conference. Sound and Music Computing Network, Proceedings of the Sound and Music Computing Conference, s. 100-107, 18th Sound and Music Computing Conference, Turin, Italien, 29/06/2021. https://doi.org/10.5281/zenodo.5042901

Real-time implementation of the shamisen using finite difference schemes. / Lasickas, Titas ; Willemsen, Silvin; Serafin, Stefania.
Proceedings of the 18th Sound and Music Computing (SMC) Conference. red. / Davide Andrea Mauro; Simone Spagnol; Andrea Valle. Sound and Music Computing Network, 2021. s. 100-107 (Proceedings of the Sound and Music Computing Conference).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Real-time implementation of the shamisen using finite difference schemes

AU - Lasickas, Titas

AU - Willemsen, Silvin

AU - Serafin, Stefania

N1 - Conference code: 18

PY - 2021/9/8

Y1 - 2021/9/8

N2 - The shamisen is a Japanese three-stringed lute. It is a chordophone that has the front of the body covered by a tensioned membrane which greatly contributes to the distinct sound of the instrument. Although the shamisen is a traditional Japanese instrument, it is a rare instrument in the rest of the world, making it mostly inaccessible by the majority of artists. To our knowledge, no physically modelled synthesizer of the shamisen is available, forcing producers and musicians to use samples. The objective of this paper is to make the shamisen’s distinct sound more accessible to digital music artists. The real-time implementation of the shamisen physical model is presented along with the derivation of solution using the finite-difference time-domain (FDTD) methods. The digital instrument sounds mostly as intended, though lacking the shamisen’s distinct buzzing sound requiring further development.

AB - The shamisen is a Japanese three-stringed lute. It is a chordophone that has the front of the body covered by a tensioned membrane which greatly contributes to the distinct sound of the instrument. Although the shamisen is a traditional Japanese instrument, it is a rare instrument in the rest of the world, making it mostly inaccessible by the majority of artists. To our knowledge, no physically modelled synthesizer of the shamisen is available, forcing producers and musicians to use samples. The objective of this paper is to make the shamisen’s distinct sound more accessible to digital music artists. The real-time implementation of the shamisen physical model is presented along with the derivation of solution using the finite-difference time-domain (FDTD) methods. The digital instrument sounds mostly as intended, though lacking the shamisen’s distinct buzzing sound requiring further development.

KW - physical modelling

KW - shamisen

KW - finite difference

KW - real-time

U2 - 10.5281/zenodo.5042901

DO - 10.5281/zenodo.5042901

M3 - Article in proceeding

T3 - Proceedings of the Sound and Music Computing Conference

SP - 100

EP - 107

BT - Proceedings of the 18th Sound and Music Computing (SMC) Conference

A2 - Mauro, Davide Andrea

A2 - Spagnol, Simone

A2 - Valle, Andrea

PB - Sound and Music Computing Network

T2 - 18th Sound and Music Computing Conference

Y2 - 29 June 2021 through 1 July 2021

ER -

Real-time implementation of the shamisen using finite difference schemes

Abstract

Konference

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18th Sound and Music Computing Conference, SMC 2021

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