Schneider M, Kellermann W (2011)
Publication Language: English
Publication Status: Published
Publication Type: Conference contribution, Conference Contribution
Publication year: 2011
Pages Range: 133-138
Article Number: 5942379
ISBN: 9781457709999
DOI: 10.1109/HSCMA.2011.5942379
The identification of loudspeaker enclosure microphone (LEM) systems with large numbers of microphones and loudspeakers is a challenging task for both, algorithmic and computational reasons. Wavedomain adaptive filtering offers an alternative to point-to-point channel identification where the complexity of the LEM system model can be reduced by using a physically motivated approximation. In this paper we present for the first time an explicit discrete-time and discrete-frequency formulation of the necessary transforms to the wave domain for circular loudspeaker and microphone arrays in a practically relevant setup. We further propose a generalization of the LEM system model in the wave domain allowing for a scalable complexity and a flexible trade-off between low complexity and high accuracy. An experimental evaluation of an acoustic echo cancellation scenario supports the applicability of the presented model. © 2011 IEEE.
APA:
Schneider, M., & Kellermann, W. (2011). A wave-domain model for acoustic MIMO systems with reduced complexity. In Proceedings of the 2011 Joint Workshop on Hands-free Speech Communication and Microphone Arrays, HSCMA'11 (pp. 133-138). Edinburgh, GB.
MLA:
Schneider, Martin, and Walter Kellermann. "A wave-domain model for acoustic MIMO systems with reduced complexity." Proceedings of the 2011 Joint Workshop on Hands-free Speech Communication and Microphone Arrays, HSCMA'11, Edinburgh 2011. 133-138.
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