© 2005 International Council for the Exploration of the Sea
On the echo interference in sound backscattering by densely aggregated targets
a Institute of Oceanology of Polish Academy of Sciences ul. Powsta
ców Warszawy 55, PL-81-712 Sopot, Poland
b Woods Hole Oceanographic Institution Woods Hole, MA 02543, USA
*Correspondence to D. Chu: tel: +1 508 289 33 18; fax: +1 508 457 21 94. e-mail: dchu{at}whoi.edu; gorska{at}iopan.gda.pl.
It is important to understand the volume backscattering by dense aggregations of a variety of scattering objects such as bubbles or biological targets. This paper addresses the interference of the echoes from randomly distributed targets. The main motivation of the paper is to understand the conditions under which the echo interference may affect the accuracy of the abundance and/or the biomass estimation in fisheries and zooplankton acoustics significantly. Our approach consists of two parts. The first includes an analytical approach, which describes explicitly the dependence of the echo interference on the pulse shape of the transmitted signals. Because of the limitations of the analytical approach, numerical computations based on Monte Carlo simulations of acoustic backscattering by three-dimensional target distribution were performed as a second approach. The impacts of the echo interference were studied numerically over a wide range of frequencies, for different pulse shapes and directivity patterns of the acoustic systems, and for various spatial distributions of the targets (abundance), as well as the corresponding target strengths. Using analytical and numerical approaches it was demonstrated that for targets that are uniformly distributed in space, the influence of echo interference on the observed volume-backscattering strength is strongly controlled by three main parameters. These are the number of targets in the sampling volume, the product of sound frequency and pulse duration, and the degree of tapering of the applied pulses. A numerical examples of the abundance estimation of marine organisms are presented.
Keywords: echo interference, randomly distributed targets, modelling
Received 23 June 2004; accepted 1 December 2004.