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Measurement Techniques
Published in: Measurement Techniques 7/2018

27-10-2018 | ACOUSTIC MEASUREMENTS

Calibration of a Recorder and Remote Hydrophone in a Laboratory Tank

Authors: A. E. Isaev, A. S. Nikolaenko

Published in: Measurement Techniques | Issue 7/2018

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Abstract

We propose a method for reducing the distortion in the sensitivity calibration curve of a hydroacoustic recorder. This method is based on correction of the transmission curve for a spatial filter implemented using the complex moving weighted average (CMWA) method. This method was tested using control measurements performed using the tone-burst method, with favorable results.
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Literature
1.
Directive 2008/56/ЕС of the European Parliament and of the Council of 17 June 2008 Establishing a Framework for Community Action in the Field of Marine Environmental Policy (Marine Strategy Framework Directive).
2.
ANSI/ASA S12.64-2009/Part 1 (R2014), Quantities and Procedures for Description and Measurement of Underwater Sound from Ships. Pt. 1: General Requirements, Acousti Soc. Am. (2009).
3.
Euramet tc-auv Roadmap: Underwater Acoustics. Underwater Acoustical Metrology to Support Marine Technology and Sustain the Marine Environment.
4.
A. E. Isaev, Precise Free-Field Calibration of Sound Pressure Detectors in an Aquatic Environment, VNIIFTRI, Mendeleevo (2008).
5.
C. Yi et al., “The COOMET Pilot Comparison 473/ RU-a/09: Comparison of hydrophone calibrations in the frequency range 250 Hz to 200 kHz,” Metrologia Tech. Suppl., 48, 09004 (2011).
6.
A. Malarkodi, G. Latha, M. A. Atmanand, et al., “Interlaboratory comparisons of hydrophone calibration in the 3–500 kHz frequency range,” Izmer. Tekhn., No. 1, 69–71 (2016).
7.
G. Hayman, S. Robinson, and P. Lepper, “Methodologies for the calibration and characterization of autonomous underwater recorders,” in: 40th Anniv. Conf. Institute of Acoustics, Birmingham, UK, Oct.15, 2014.
8.
A. E. Isaev, A. N. Matveev, G. S. Nekrich, and A. M.Polikarpov, “Free-field calibration of a pressure gradient receiver in a reflecting water tank using a linear frequency-modulated signal,” Akust. Zh., 59, No. 6, 773–781 (2013).
9.
A. E. Isaev and A. S. Nikolaenko, “Laboratory free-field calibration of a hydroacoustic receiver at low frequencies,” Izmer. Tekhn., No. 1, 54–59 (2018).
Metadata
Title
Calibration of a Recorder and Remote Hydrophone in a Laboratory Tank
Authors
A. E. Isaev
A. S. Nikolaenko
Publication date
27-10-2018
Publisher
Springer US
Published in
Measurement Techniques / Issue 7/2018
Print ISSN: 0543-1972
Electronic ISSN: 1573-8906
DOI
https://doi.org/10.1007/s11018-018-1493-3

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