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Advisor(s)
Abstract(s)
In this paper an unmanned sperm whale localization
technique is presented. It focuses on the localization of sperm
whales using a two-hydrophone array passive localization system.
It is based on the beamforming technique and on the time delay
between the direct and surface reflected wavefronts. The
proposed method is based on that presented by E. K. Skarsoulis
[1] and it aims to develop a low computational complexity signal
processing system, which can operate autonomously in remote
buoys with power and computational limitations. This study
consists on the analysis of the improvements provided by using
beamforming theory on the method proposed in [1]. The
eqnipment used mainly composed of two hydrophone arrays
deployed near the surface. It was found that the accuracy of this
methodology depends on the array's location and can be
improved by increasing the depth and the separation between
the arrays and/or decreasing the angle formed by the line which
crosses through the arrays with respect to the horizontal plane.
The performance of the proposed method is evaluated
through simulations using a real sperm whale signal in deep
water, in presence of low and high SNR. The enhancements are
proven in the extraction of the direct and surface-reflection
arrival times as well as the arrival angle for each path under
realistic conditions.
Description
Keywords
Accuracy Monitoring
Citation
P. CARO and A. SILVA, ''Unmanned localization of sperm whales in realistic scenarios'' in Proc. OCEANS'11, Santander, pp. 1-6.
Publisher
IEEE Explore