Wavenumber-domain separation of rail contribution to pass-by noise
Wavenumber-domain separation of rail contribution to pass-by noise
In order to counteract the problem of railway noise and its environmental impact, passing trains in Europe must be tested in accordance to a noise legislation that demands the quantification of the noise generated by the vehicle alone. However, for frequencies between about 500 Hz and 1600 Hz, it has been found that a significant part of the measured noise is generated by the rail, which behaves like a distributed source and radiates plane waves as a result of the contact with the train's wheels. Thus the need arises for separating the rail contribution to the pass-by noise in that particular frequency range. To this end, the present paper introduces a wavenumber–domain filtering technique, referred to as wave signature extraction, which requires a line microphone array parallel to the rail, and two accelerometers on the rail in the vertical and lateral direction. The novel contributions of this research are: (i) the introduction and application of wavenumber (or plane–wave) filters to pass-by data measured with a microphone array located in the near-field of the rail, and (ii) the design of such filters without prior information of the structural properties of the rail. The latter is achieved by recording the array pressure, as well as the rail vibrations with the accelerometers, before and after the train pass-by. The performance of the proposed method is investigated with a set of pass-by measurements performed in Germany. The results seem to be promising when compared to reference data from TWINS, and the largest discrepancies occur above 1600 Hz and are attributed to plane waves radiated by the rail that so far have not been accounted for in the design of the filters.
24-42
Zea, Elias
56c61f9a-805e-4529-9f42-727efb418aa4
Manzari, Luca
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Squicciarini, Giacomo
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Feng, Leping
3a0884f8-a868-4671-9e3e-42240b01b65e
Thompson, David
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Lopez Arteaga, Ines
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24 November 2017
Zea, Elias
56c61f9a-805e-4529-9f42-727efb418aa4
Manzari, Luca
8c10be1b-776f-4706-9c49-6b048ac604ed
Squicciarini, Giacomo
c1bdd1f6-a2e8-435c-a924-3e052d3d191e
Feng, Leping
3a0884f8-a868-4671-9e3e-42240b01b65e
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Lopez Arteaga, Ines
1f5140b0-2710-4e90-aac1-b4e27de2d7a7
Zea, Elias, Manzari, Luca, Squicciarini, Giacomo, Feng, Leping, Thompson, David and Lopez Arteaga, Ines
(2017)
Wavenumber-domain separation of rail contribution to pass-by noise.
Journal of Sound and Vibration, 409, .
(doi:10.1016/j.jsv.2017.07.040).
Abstract
In order to counteract the problem of railway noise and its environmental impact, passing trains in Europe must be tested in accordance to a noise legislation that demands the quantification of the noise generated by the vehicle alone. However, for frequencies between about 500 Hz and 1600 Hz, it has been found that a significant part of the measured noise is generated by the rail, which behaves like a distributed source and radiates plane waves as a result of the contact with the train's wheels. Thus the need arises for separating the rail contribution to the pass-by noise in that particular frequency range. To this end, the present paper introduces a wavenumber–domain filtering technique, referred to as wave signature extraction, which requires a line microphone array parallel to the rail, and two accelerometers on the rail in the vertical and lateral direction. The novel contributions of this research are: (i) the introduction and application of wavenumber (or plane–wave) filters to pass-by data measured with a microphone array located in the near-field of the rail, and (ii) the design of such filters without prior information of the structural properties of the rail. The latter is achieved by recording the array pressure, as well as the rail vibrations with the accelerometers, before and after the train pass-by. The performance of the proposed method is investigated with a set of pass-by measurements performed in Germany. The results seem to be promising when compared to reference data from TWINS, and the largest discrepancies occur above 1600 Hz and are attributed to plane waves radiated by the rail that so far have not been accounted for in the design of the filters.
Text
Zea_etal_JSV2017_R2R
- Accepted Manuscript
More information
Accepted/In Press date: 21 July 2017
e-pub ahead of print date: 29 July 2017
Published date: 24 November 2017
Identifiers
Local EPrints ID: 412910
URI: http://eprints.soton.ac.uk/id/eprint/412910
ISSN: 0022-460X
PURE UUID: 35498f04-db6c-498b-9b29-29add5d38a34
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Date deposited: 08 Aug 2017 16:31
Last modified: 16 Mar 2024 05:35
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Contributors
Author:
Elias Zea
Author:
Luca Manzari
Author:
Leping Feng
Author:
Ines Lopez Arteaga
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