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Measurement Techniques
Published in: Measurement Techniques 9/2018

05-12-2018 | ACOUSTIC MEASUREMENTS

Sensitivity of Sonar Receiver When Measuring Underwater Noise

Authors: A. E. Isaev, A. N. Matveev, A. S. Nikolaenko, A. M. Polikarpov

Published in: Measurement Techniques | Issue 9/2018

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Abstract

Problems arising from using the sensitivity of a hydrophone across a field to measure underwater noise are considered. Using the example of calibration of a hydroacoustic receiver, methods are shown for obtaining the energy and sectoral energy sensitivities of a receiver and the advantages of using them in measuring environmental noise and noise during certification tests of a vessel.
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Literature
1.
IEC 60565–2006 (MEK 60565–2006), Underwater Acoustics. Hydrophones. Calibration in the Frequency Range 0.01 Hz to 1 MHz.
2.
GOST R 53576-2009 (MEK 60268-4: 2004), Microphones. Methods of Measurement of Electroacoustic Parameters.
3.
A. E. Isaev and A. S. Nikolaenko, “Laboratory calibration of a hydroacoustic receiver across a field at low frequencies,” Izmer. Tekhn., No. 1, 54–59 (2018).
4.
A. E. Isaev, Accurate Calibration of Sound Pressure Receivers in a Free Field of a Marine Environment, VNIIFTRI, Medeleevo (2008).
5.
A. E. Isaev and A. S. Nikolaenko, “Free-field calibration of underwater sound receiver in a laboratory water tank at very low frequencies,” CCAUV/15-17, https:// bipm.org/cc/CCAUV/Allowed/11/CCAUV_Workshop_Low-frequency. pdf, acc. Jan. 20, 2018.
6.
GOST R 8.714-2010 (MEK 61260:1995), GSI. Bandpass Octave and Fractional Octave Filters. Technical Requirements and Test Methods.
7.
A. E. Isaev and A. S. Nikolaenko, “Calibration of the receiver for the environment of the underwater noise,” INTERNOISE 2016: Proc. 45th Int. Congress Exposition on Noise Control Engineering, Hamburg, Germany (2016), pp. 7050–7057.
8.
A. E. Isaev and I. V. Chernikov, “Laboratory calibration of a hydroacoustic receiver in a reverberation field noise signal,” Akust. Zh., 61, No. 5, 1–9 (2015).
9.
ISO/DIS 17208-2:2017, Underwater Acoustics. Quantities and Procedures for Underwater Noise from Ships. Pt. 2: Determination of Source Levels from Deep Water Measurements.
10.
ANSI/ASA S12.64-2009/Part 1 (R2014), Quantities and Procedures for Underwater Sound from Ships. Pt 1. General Requirements.
11.
Rule Note NR 614, Underwater Radiated Noise (URN), Bureau Veritas (2017).
Metadata
Title
Sensitivity of Sonar Receiver When Measuring Underwater Noise
Authors
A. E. Isaev
A. N. Matveev
A. S. Nikolaenko
A. M. Polikarpov
Publication date
05-12-2018
Publisher
Springer US
Published in
Measurement Techniques / Issue 9/2018
Print ISSN: 0543-1972
Electronic ISSN: 1573-8906
DOI
https://doi.org/10.1007/s11018-018-1530-2

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