Data-based sensitivity kernel in a highly reverberating cavity

Selda Yildiz; Christian Marandet; Sandrine T. Rakotonarivo; Philippe Roux; William A. Kuperman

doi:10.1121/1.4800577

Data-based sensitivity kernel in a highly reverberating cavity

Selda Yildiz, Christian Marandet, Sandrine T. Rakotonarivo, Philippe Roux, William A. Kuperman

Research output: Contribution to journal › Conference article › peer-review

Abstract

Our goal is to acoustically localize medium inhomogeneities, (i.e., scatterers) in a very complex medium without having to resort to constructing an accurate propagation model. Instead, we use a data-based sensitivity kernel approach to characterize medium changes in this complex medium which, in this study, is a highly reverberating cavity. The efficacy of the method is confirmed in an experiment with a moving aggregate of ping-pong balls inside a fish tank of 5.6m-diameter and water depth of 1.05m in the ∼10KHz frequency regime; acoustic sources and receivers are on the periphery of the tank. Using a sensitivity kernel constructed from field data for scatterers at a sparse set of known positions, we demonstrate that we can localize other scatterers at unknown positions.

Original language	English (US)
Article number	070068
Journal	Proceedings of Meetings on Acoustics
Volume	19
DOIs	https://doi.org/10.1121/1.4800577
State	Published - 2013
Externally published	Yes
Event	21st International Congress on Acoustics, ICA 2013 - 165th Meeting of the Acoustical Society of America - Montreal, QC, Canada Duration: Jun 2 2013 → Jun 7 2013

ASJC Scopus subject areas

Acoustics and Ultrasonics

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10.1121/1.4800577

Cite this

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title = "Data-based sensitivity kernel in a highly reverberating cavity",

abstract = "Our goal is to acoustically localize medium inhomogeneities, (i.e., scatterers) in a very complex medium without having to resort to constructing an accurate propagation model. Instead, we use a data-based sensitivity kernel approach to characterize medium changes in this complex medium which, in this study, is a highly reverberating cavity. The efficacy of the method is confirmed in an experiment with a moving aggregate of ping-pong balls inside a fish tank of 5.6m-diameter and water depth of 1.05m in the ∼10KHz frequency regime; acoustic sources and receivers are on the periphery of the tank. Using a sensitivity kernel constructed from field data for scatterers at a sparse set of known positions, we demonstrate that we can localize other scatterers at unknown positions.",

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T1 - Data-based sensitivity kernel in a highly reverberating cavity

AU - Yildiz, Selda

AU - Marandet, Christian

AU - Rakotonarivo, Sandrine T.

AU - Roux, Philippe

AU - Kuperman, William A.

PY - 2013

Y1 - 2013

N2 - Our goal is to acoustically localize medium inhomogeneities, (i.e., scatterers) in a very complex medium without having to resort to constructing an accurate propagation model. Instead, we use a data-based sensitivity kernel approach to characterize medium changes in this complex medium which, in this study, is a highly reverberating cavity. The efficacy of the method is confirmed in an experiment with a moving aggregate of ping-pong balls inside a fish tank of 5.6m-diameter and water depth of 1.05m in the ∼10KHz frequency regime; acoustic sources and receivers are on the periphery of the tank. Using a sensitivity kernel constructed from field data for scatterers at a sparse set of known positions, we demonstrate that we can localize other scatterers at unknown positions.

AB - Our goal is to acoustically localize medium inhomogeneities, (i.e., scatterers) in a very complex medium without having to resort to constructing an accurate propagation model. Instead, we use a data-based sensitivity kernel approach to characterize medium changes in this complex medium which, in this study, is a highly reverberating cavity. The efficacy of the method is confirmed in an experiment with a moving aggregate of ping-pong balls inside a fish tank of 5.6m-diameter and water depth of 1.05m in the ∼10KHz frequency regime; acoustic sources and receivers are on the periphery of the tank. Using a sensitivity kernel constructed from field data for scatterers at a sparse set of known positions, we demonstrate that we can localize other scatterers at unknown positions.

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DO - 10.1121/1.4800577

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JO - Proceedings of Meetings on Acoustics

JF - Proceedings of Meetings on Acoustics

M1 - 070068

T2 - 21st International Congress on Acoustics, ICA 2013 - 165th Meeting of the Acoustical Society of America

Y2 - 2 June 2013 through 7 June 2013

ER -

Data-based sensitivity kernel in a highly reverberating cavity

Abstract

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