Title :
Seismic Streamer Position and Shape Estimation
Author :
Gilbert, Douglas C.
Author_Institution :
A&T Tech. Services, Inc., New London, CT, USA
Abstract :
Optimal utilization of the acoustic signals received by the individual hydrophones of a towed seismic streamer requires knowledge of the relative cross-track positions of the hydrophones and their absolute positions with respect to the towship. Consequently, it is necessary to estimate the streamer shape so that the hydrophone positions can be estimated. A polynomial approximation is considered, and justification is given for its use as a basis function. Maximum likelihood techniques are used to develop optimal estimates (in the mean square sense) of the horizontal and vertical polynomial coefficients. Be- cause these estimates are efficient, absolute error variance expressions are calculated. An example is provided to demonstrate the potential of the optimal shape and position estimator.
Keywords :
hydrophones; maximum likelihood estimation; oceanographic techniques; polynomials; underwater sound; absolute error variance expressions; acoustic signals; basis function; horizontal polynomial coefficient; hydrophone positions; maximum likelihood techniques; polynomial approximation; position estimator; relative cross-track positions; seismic streamer position; shape estimation; streamer shape; towed seismic streamer; vertical polynomial coefficient; Acoustic arrays; Apertures; Marine vehicles; Maximum likelihood estimation; Oceans; Polynomials; Shape; Sonar equipment;
Conference_Titel :
OCEANS 81
Conference_Location :
Boston, MA
DOI :
10.1109/OCEANS.1981.1151514
