The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers

Florian Kraxberger; Eniz Museljic; Eric Kurz; Florian Toth; Manfred Kaltenbacher; Stefan Schoder

doi:10.61782/fa.2023.0386

The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers

Florian Kraxberger, Eniz Museljic, Eric Kurz, Florian Toth, Manfred Kaltenbacher, Stefan Schoder

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Using porous absorbers is common practice in the acoustic treatment of rooms. To reduce low-frequency reverberation in rooms, the absorber material is often placed in one or more edges of the room. Such an arrangement of porous absorbers is commonly known as bass trap or edge absorber. Edge absorbers have the advantage that, with relatively little porous absorber material, they efficiently reduce low-frequency reverberation, for which there are modal peaks, in the room, and do not overattenuate high-frequency reverberation. However, standard room acoustic simulation methods based on ray tracing and mirror sources cannot predict the edge absorber's influence on the acoustic field for low frequencies because the frequency limits of geometrical room acoustics are not met. Hence, a finite element model is employed to simulate the edge absorber's influence on a room's eigenfrequencies, wherein the edge absorber material is modeled using an equivalent fluid model. This results in a nonlinear eigenvalue problem due to the frequency dependence of the porous material parameters. The paper presents an iterative solution approach to the nonlinear eigenvalue problem and its application to acoustic predictions of edge absorbers. It is shown how edge absorbers shift and damp the eigenfrequencies of a room.

Originalsprache	englisch
Titel	Proceedings of the 10th Convention of the European Acoustics Association
Untertitel	Forum Acusticum 2023
Redakteure/-innen	Arianna Astolfi, Francesco Asdrubali, Louena Shtrepi
Seiten	6159-6166
ISBN (elektronisch)	978-88-88942-67-4
DOIs	https://doi.org/10.61782/fa.2023.0386
Publikationsstatus	Veröffentlicht - Sept. 2023
Veranstaltung	Forum Acusticum 2023: 10th Convention of the European Acoustics Assoiation - Turin, Italien Dauer: 11 Sept. 2023 → 15 Sept. 2023

Konferenz

Konferenz	Forum Acusticum 2023
Kurztitel	FA 2023
Land/Gebiet	Italien
Ort	Turin
Zeitraum	11/09/23 → 15/09/23

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10.61782/fa.2023.0386

1 Konferenz oder Fachtagung (Teilnahme an/Organisation von)
1 Vortrag bei Konferenz oder Fachtagung

Forum Acusticum 2023
Florian Kraxberger (Teilnehmer/-in)
11 Sept. 2023 → 15 Sept. 2023
Aktivität: Teilnahme an / Organisation von › Konferenz oder Fachtagung (Teilnahme an/Organisation von)
The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers
Florian Kraxberger (Redner/in), Eniz Museljic (Beitragende/r), Eric Kurz (Beitragende/r), Florian Toth (Beitragende/r), Manfred Kaltenbacher (Beitragende/r) & Stefan Schoder (Beitragende/r)
11 Sept. 2023 → 23 Sept. 2023
Aktivität: Vortrag oder Präsentation › Vortrag bei Konferenz oder Fachtagung › Science to science

Dieses zitieren

Kraxberger, F., Museljic, E., Kurz, E., Toth, F., Kaltenbacher, M., & Schoder, S. (2023). The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers. in A. Astolfi, F. Asdrubali, & L. Shtrepi (Hrsg.), Proceedings of the 10th Convention of the European Acoustics Association: Forum Acusticum 2023 (S. 6159-6166) https://doi.org/10.61782/fa.2023.0386

The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers. / Kraxberger, Florian ; Museljic, Eniz ; Kurz, Eric et al.
Proceedings of the 10th Convention of the European Acoustics Association: Forum Acusticum 2023 . Hrsg. / Arianna Astolfi; Francesco Asdrubali; Louena Shtrepi. 2023. S. 6159-6166.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Kraxberger, F , Museljic, E , Kurz, E, Toth, F, Kaltenbacher, M & Schoder, S 2023, The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers. in A Astolfi, F Asdrubali & L Shtrepi (Hrsg.), Proceedings of the 10th Convention of the European Acoustics Association: Forum Acusticum 2023 . S. 6159-6166, Forum Acusticum 2023, Turin, Italien, 11/09/23. https://doi.org/10.61782/fa.2023.0386

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title = "The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers",

abstract = "Using porous absorbers is common practice in the acoustic treatment of rooms. To reduce low-frequency reverberation in rooms, the absorber material is often placed in one or more edges of the room. Such an arrangement of porous absorbers is commonly known as bass trap or edge absorber. Edge absorbers have the advantage that, with relatively little porous absorber material, they efficiently reduce low-frequency reverberation, for which there are modal peaks, in the room, and do not overattenuate high-frequency reverberation. However, standard room acoustic simulation methods based on ray tracing and mirror sources cannot predict the edge absorber's influence on the acoustic field for low frequencies because the frequency limits of geometrical room acoustics are not met. Hence, a finite element model is employed to simulate the edge absorber's influence on a room's eigenfrequencies, wherein the edge absorber material is modeled using an equivalent fluid model. This results in a nonlinear eigenvalue problem due to the frequency dependence of the porous material parameters. The paper presents an iterative solution approach to the nonlinear eigenvalue problem and its application to acoustic predictions of edge absorbers. It is shown how edge absorbers shift and damp the eigenfrequencies of a room.",

author = "Florian Kraxberger and Eniz Museljic and Eric Kurz and Florian Toth and Manfred Kaltenbacher and Stefan Schoder",

year = "2023",

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doi = "10.61782/fa.2023.0386",

language = "English",

pages = "6159--6166",

editor = "Arianna Astolfi and Francesco Asdrubali and Louena Shtrepi",

booktitle = "Proceedings of the 10th Convention of the European Acoustics Association",

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AU - Kraxberger, Florian

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AU - Schoder, Stefan

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N2 - Using porous absorbers is common practice in the acoustic treatment of rooms. To reduce low-frequency reverberation in rooms, the absorber material is often placed in one or more edges of the room. Such an arrangement of porous absorbers is commonly known as bass trap or edge absorber. Edge absorbers have the advantage that, with relatively little porous absorber material, they efficiently reduce low-frequency reverberation, for which there are modal peaks, in the room, and do not overattenuate high-frequency reverberation. However, standard room acoustic simulation methods based on ray tracing and mirror sources cannot predict the edge absorber's influence on the acoustic field for low frequencies because the frequency limits of geometrical room acoustics are not met. Hence, a finite element model is employed to simulate the edge absorber's influence on a room's eigenfrequencies, wherein the edge absorber material is modeled using an equivalent fluid model. This results in a nonlinear eigenvalue problem due to the frequency dependence of the porous material parameters. The paper presents an iterative solution approach to the nonlinear eigenvalue problem and its application to acoustic predictions of edge absorbers. It is shown how edge absorbers shift and damp the eigenfrequencies of a room.

AB - Using porous absorbers is common practice in the acoustic treatment of rooms. To reduce low-frequency reverberation in rooms, the absorber material is often placed in one or more edges of the room. Such an arrangement of porous absorbers is commonly known as bass trap or edge absorber. Edge absorbers have the advantage that, with relatively little porous absorber material, they efficiently reduce low-frequency reverberation, for which there are modal peaks, in the room, and do not overattenuate high-frequency reverberation. However, standard room acoustic simulation methods based on ray tracing and mirror sources cannot predict the edge absorber's influence on the acoustic field for low frequencies because the frequency limits of geometrical room acoustics are not met. Hence, a finite element model is employed to simulate the edge absorber's influence on a room's eigenfrequencies, wherein the edge absorber material is modeled using an equivalent fluid model. This results in a nonlinear eigenvalue problem due to the frequency dependence of the porous material parameters. The paper presents an iterative solution approach to the nonlinear eigenvalue problem and its application to acoustic predictions of edge absorbers. It is shown how edge absorbers shift and damp the eigenfrequencies of a room.

U2 - 10.61782/fa.2023.0386

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EP - 6166

BT - Proceedings of the 10th Convention of the European Acoustics Association

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A2 - Asdrubali, Francesco

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ER -

The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers

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The Nonlinear Eigenfrequency Problem of Room Acoustics with Porous Edge Absorbers

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