Mean squared error performance of adaptive matched field localization under environmental uncertainty

Nigel Lee; Christ D. Richmond; Vitaly Kmelnitsky

doi:10.1109/SSP.2012.6319829

Mean squared error performance of adaptive matched field localization under environmental uncertainty

Nigel Lee, Christ D. Richmond, Vitaly Kmelnitsky

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Scopus citations

Abstract

Matched field processing (MFP) is the use of full-field acoustic modeling to obtain improved detection and localization over conventional planewave and range focused beamforming in passive sonar signal processing. MFP localization (MFL), however, is a challenge in practice due to high ambiguities in the search surface that introduce large errors. In addition, uncertainties in environmental characterizations lead to mismatched field replicas that ultimately limit localization performance. Also, the adaptive nature of MFP requires use of estimated data covariances whose impact must be accounted for. The goal of this paper is to use the method of interval errors (MIE) to predict mean-squared error localization performance of MFL at moderate to low SNRs in the presence of mismatch, to assess system performance and sensitivities.

Original language	English (US)
Title of host publication	2012 IEEE Statistical Signal Processing Workshop, SSP 2012
Pages	812-815
Number of pages	4
DOIs	https://doi.org/10.1109/SSP.2012.6319829
State	Published - 2012
Externally published	Yes
Event	2012 IEEE Statistical Signal Processing Workshop, SSP 2012 - Ann Arbor, MI, United States Duration: Aug 5 2012 → Aug 8 2012

Publication series

Name	2012 IEEE Statistical Signal Processing Workshop, SSP 2012

Other

Other	2012 IEEE Statistical Signal Processing Workshop, SSP 2012
Country/Territory	United States
City	Ann Arbor, MI
Period	8/5/12 → 8/8/12

ASJC Scopus subject areas

Signal Processing

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10.1109/SSP.2012.6319829

Cite this

Mean squared error performance of adaptive matched field localization under environmental uncertainty. / Lee, Nigel; Richmond, Christ D.; Kmelnitsky, Vitaly.
2012 IEEE Statistical Signal Processing Workshop, SSP 2012. 2012. p. 812-815 6319829 (2012 IEEE Statistical Signal Processing Workshop, SSP 2012).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Lee, N, Richmond, CD & Kmelnitsky, V 2012, Mean squared error performance of adaptive matched field localization under environmental uncertainty. in 2012 IEEE Statistical Signal Processing Workshop, SSP 2012., 6319829, 2012 IEEE Statistical Signal Processing Workshop, SSP 2012, pp. 812-815, 2012 IEEE Statistical Signal Processing Workshop, SSP 2012, Ann Arbor, MI, United States, 8/5/12. https://doi.org/10.1109/SSP.2012.6319829

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title = "Mean squared error performance of adaptive matched field localization under environmental uncertainty",

abstract = "Matched field processing (MFP) is the use of full-field acoustic modeling to obtain improved detection and localization over conventional planewave and range focused beamforming in passive sonar signal processing. MFP localization (MFL), however, is a challenge in practice due to high ambiguities in the search surface that introduce large errors. In addition, uncertainties in environmental characterizations lead to mismatched field replicas that ultimately limit localization performance. Also, the adaptive nature of MFP requires use of estimated data covariances whose impact must be accounted for. The goal of this paper is to use the method of interval errors (MIE) to predict mean-squared error localization performance of MFL at moderate to low SNRs in the presence of mismatch, to assess system performance and sensitivities.",

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AU - Richmond, Christ D.

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AB - Matched field processing (MFP) is the use of full-field acoustic modeling to obtain improved detection and localization over conventional planewave and range focused beamforming in passive sonar signal processing. MFP localization (MFL), however, is a challenge in practice due to high ambiguities in the search surface that introduce large errors. In addition, uncertainties in environmental characterizations lead to mismatched field replicas that ultimately limit localization performance. Also, the adaptive nature of MFP requires use of estimated data covariances whose impact must be accounted for. The goal of this paper is to use the method of interval errors (MIE) to predict mean-squared error localization performance of MFL at moderate to low SNRs in the presence of mismatch, to assess system performance and sensitivities.

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Mean squared error performance of adaptive matched field localization under environmental uncertainty

Abstract

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