This conference proceedings illustrates a practical methodology to improve covariance estimation using the principles of lucky signal processing and the cumulative coherence. Lucky processing, popularized in astro-photography, is a technique that increases signal quality by selectively keeping only a small fraction from a pool of potential snapshots. Cumulative coherence, a measure of how well a set of vectors is described by its subsets, provides the measure of “data quality” that enables the lucky processing. This approach is described practically and then applied to covariance estimation on an acoustic array by taking a fixed duration sample of data and creating a dense set of snapshots with higher than usual overlap. From these densely sampled snapshots, the “luckiest” ones were found using cumulative coherence, and the covariance was averaged as normal. It was found that the lucky covariance estimate was successful at adaptive matched field processing and produced a less ambiguous processor output than the conventional estimator. The lucky covariance estimate had a higher estimated signal-to-noise ratio, especially when the source was at longer ranges from the array.
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13 May 2024
186th Meeting of the Acoustical Society of America and the Canadian Acoustical Association
13–17 May 2024
Ottawa, Ontario, Canada
Signal Processing in Acoustics: Paper 2pSP2
July 16 2024
A practical implementation of a lucky covariance estimator using cumulative coherence
Daniel J. Brooker;
Daniel J. Brooker
1Code 7167,
NRL: US Naval Research Laboratory
, Washington, DC, 20375-5350, USA
; daniel.j.brooker5.civ@us.navy.mil
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Geoffrey F. Edelmann
Geoffrey F. Edelmann
2Code 7167,
NRL: US Naval Research Laboratory
, Washington, DC, 20375-5350, USA
; geoffrey.f.edelmann.civ@us.navy.mil
Search for other works by this author on:
Proc. Mtgs. Acoust. 54, 055001 (2024)
Article history
Received:
March 21 2024
Accepted:
June 11 2024
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Citation
Daniel J. Brooker, Geoffrey F. Edelmann; A practical implementation of a lucky covariance estimator using cumulative coherence. Proc. Mtgs. Acoust. 13 May 2024; 54 (1): 055001. https://doi.org/10.1121/2.0001905
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