The Journal of the Acoustical Society of America, Vol. 126, No. 5, pp. EL107–EL111, November 2009

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Ultra-wide sensor arcs for low frequency sonar detection with abaffled cylindrical array

Derek C. Bertilone, Chaoying Bao, Ben C. Travaglione, and Damien S. Killeen

DefenceScience and Technology Organisation, Building A51, HMAS Stirling, P.O. Box2188, Rockingham DC, Western Australia 6958, Australia

(Received: 1 June 2009; revised: 23 July 2009; accepted: 24 July 2009; published online: 22 September 2009)

Passive detection with a baffled cylindricalarray can potentially be improved at low frequencies by exploitingsignal diffraction around the baffle. A model based on infiniterigid cylinder scattering suggests that large gains in signal-to-noise ratioare potentially available to adaptive beamformers if the sensor arcis widened to include sensors in the acoustic shadow. However,elastic scatter effects become increasingly important as frequency decreases, sothe gains obtained in practice are unknown. The gains indetection performance are examined in this letter by analyzing datarecorded at sea from a platform-mounted sonar array.

Next section: Introduction | Up: Issue Table of Contents
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Other formats: HTML (all one file, 29 kB + graphics) | PDF ( kB)

Ultra-wide sensor arcs for low frequency sonar detection with a baffled cylindrical array

Derek C. Bertilone, Chaoying Bao, Ben C. Travaglione, and Damien S. Killeen

Defence Science and Technology Organisation, Building A51, HMAS Stirling, P.O. Box 2188, Rockingham DC, Western Australia 6958, Australia

Contents

Ultra-wide sensor arcs for low frequency sonar detection with abaffled cylindrical array

DefenceScience and Technology Organisation, Building A51, HMAS Stirling, P.O. Box2188, Rockingham DC, Western Australia 6958, Australia