Representation of the spatial impulse response of a room
Representation of the spatial impulse response of a room
Microphone arrays allow for the measurement of the so-called spatial impulse response (SIR) of a room or of a concert hall. The SIR provides a local description of the reverberant field of that environment as a function of both time and space. It is shown that, under given assumptions, the SIR can be described by means of an integral operator, the so-called Herglotz wave function, which represents an infinite superposition of plane waves arriving, in general, from all possible directions. The kernel of this operator (the Herglotz kernel) contains all the information on the SIR. In practical cases only a limited amount of information is available to compute the Herglotz kernel, typically because a finite number of sensors is used for the measurement. In that respect, several alternatives are discussed to represent the Herglotz density as a sum of a finite number of basis functions. Some results for numerical simulations are then presented, which show the Herglotz kernel for simple examples. Finally, some limitations of this representation are discussed, especially those imposed by the use of real microphone arrays.
Fazi, Filippo M.
e5aefc08-ab45-47c1-ad69-c3f12d07d807
Noisternig, Markus
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Warusfel, Olivier
df439e59-f842-4514-a41c-9998def8b245
13 May 2012
Fazi, Filippo M.
e5aefc08-ab45-47c1-ad69-c3f12d07d807
Noisternig, Markus
f4628752-e82a-4373-b955-692ed3ca55cc
Warusfel, Olivier
df439e59-f842-4514-a41c-9998def8b245
Fazi, Filippo M., Noisternig, Markus and Warusfel, Olivier
(2012)
Representation of the spatial impulse response of a room.
The Acoustics 2012 Hong Kong, Hong Kong, Hong Kong.
12 - 17 May 2012.
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Conference or Workshop Item
(Other)
Abstract
Microphone arrays allow for the measurement of the so-called spatial impulse response (SIR) of a room or of a concert hall. The SIR provides a local description of the reverberant field of that environment as a function of both time and space. It is shown that, under given assumptions, the SIR can be described by means of an integral operator, the so-called Herglotz wave function, which represents an infinite superposition of plane waves arriving, in general, from all possible directions. The kernel of this operator (the Herglotz kernel) contains all the information on the SIR. In practical cases only a limited amount of information is available to compute the Herglotz kernel, typically because a finite number of sensors is used for the measurement. In that respect, several alternatives are discussed to represent the Herglotz density as a sum of a finite number of basis functions. Some results for numerical simulations are then presented, which show the Herglotz kernel for simple examples. Finally, some limitations of this representation are discussed, especially those imposed by the use of real microphone arrays.
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Published date: 13 May 2012
Venue - Dates:
The Acoustics 2012 Hong Kong, Hong Kong, Hong Kong, 2012-05-12 - 2012-05-17
Organisations:
Acoustics Group
Identifiers
Local EPrints ID: 339947
URI: http://eprints.soton.ac.uk/id/eprint/339947
PURE UUID: 8f576df4-1541-4ff9-b0e0-fa02921853ae
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Date deposited: 06 Jun 2012 09:55
Last modified: 02 Sep 2023 01:41
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Contributors
Author:
Markus Noisternig
Author:
Olivier Warusfel
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