Controller architectures for optimum performance in
practical active acoustic metamaterials
Controller architectures for optimum performance in
practical active acoustic metamaterials
Over the last decade there has been significant interest in the design and production of acoustic metamaterials with physical qualities not seen in naturally occurring media. Progress in this area has been stimulated by the desire to create materials that exhibit novel behaviour when subject to acoustic waves,such as negative refraction or the appearance of band gaps in the frequency response of the material. Proposed designs range from locally resonant phononic crystals to arrays of Helmholtz resonators within ducts and past research has investigated both passive and active materials. Much of the research into active acoustic metamaterials remains theoretical, therefore to determine whether such materials are physically realisable and of potentially practical use it is important to understand the physical constraints that may arise in a produced active metamaterial. In this paper a 1-dimensional active acoustic metamaterial derived from a passive, Helmholtz resonator based design is considered where the applied control forces produce controllable double negative behaviour. The physical dimensions and active forces required to achieve the desired novel behaviour are explored for different architectures and any trade-offs that might have to be considered when producing a practically useful active metamaterial are identified
Reynolds, Matthew
0627295a-25d1-40b0-aba3-e1a3fe82c80e
Daley, Steve
53cef7f1-77fa-4a4c-9745-b6a0ba4f42e6
Gao, Yan
23154085-596b-483e-8c31-79916fca87ea
Pope, Simon
a9a004a6-4510-49eb-9b6d-f967618155ef
27 April 2012
Reynolds, Matthew
0627295a-25d1-40b0-aba3-e1a3fe82c80e
Daley, Steve
53cef7f1-77fa-4a4c-9745-b6a0ba4f42e6
Gao, Yan
23154085-596b-483e-8c31-79916fca87ea
Pope, Simon
a9a004a6-4510-49eb-9b6d-f967618155ef
Reynolds, Matthew, Daley, Steve, Gao, Yan and Pope, Simon
(2012)
Controller architectures for optimum performance in
practical active acoustic metamaterials.
Acoustics 2012 - 11th Congrès Français d'Acoustique and the 2012 Annual l Institute of Acoustics (IOA) Meeting, Nantes, France.
23 - 27 Apr 2012.
6 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Over the last decade there has been significant interest in the design and production of acoustic metamaterials with physical qualities not seen in naturally occurring media. Progress in this area has been stimulated by the desire to create materials that exhibit novel behaviour when subject to acoustic waves,such as negative refraction or the appearance of band gaps in the frequency response of the material. Proposed designs range from locally resonant phononic crystals to arrays of Helmholtz resonators within ducts and past research has investigated both passive and active materials. Much of the research into active acoustic metamaterials remains theoretical, therefore to determine whether such materials are physically realisable and of potentially practical use it is important to understand the physical constraints that may arise in a produced active metamaterial. In this paper a 1-dimensional active acoustic metamaterial derived from a passive, Helmholtz resonator based design is considered where the applied control forces produce controllable double negative behaviour. The physical dimensions and active forces required to achieve the desired novel behaviour are explored for different architectures and any trade-offs that might have to be considered when producing a practically useful active metamaterial are identified
Text
Reynolds_Acoustics2012Nantes_postprint.pdf
- Accepted Manuscript
More information
Published date: 27 April 2012
Venue - Dates:
Acoustics 2012 - 11th Congrès Français d'Acoustique and the 2012 Annual l Institute of Acoustics (IOA) Meeting, Nantes, France, 2012-04-23 - 2012-04-27
Organisations:
Signal Processing & Control Grp
Identifiers
Local EPrints ID: 345923
URI: http://eprints.soton.ac.uk/id/eprint/345923
PURE UUID: c2e20dac-e0b5-4146-9bf3-8fe7287a333f
Catalogue record
Date deposited: 07 Dec 2012 09:59
Last modified: 14 Mar 2024 12:31
Export record
Contributors
Author:
Matthew Reynolds
Author:
Yan Gao
Author:
Simon Pope
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics