Title :
Trajectory estimation for ultrashort baseline acoustic positioning systems
Author :
Ricordel, Vincent ; Paris, Sébastien ; Opderbecke, Jan
Author_Institution :
SIS/Signal-ISIT, Univ. de Toulon et du Var, La Valette du Var, France
Abstract :
The purpose of the paper is to describe an automatic estimation method of an underwater vehicle trajectory from ultrashort baseline system measurements. The standard Viterbi algorithm is then used to find the most likely trajectory of the dynamic system observed through the noisy measurements with a model of nonconstant speed as state variable. A decoupled trajectory is achieved by considering separately each coordinate of the point. Aberrant measurements are automatically discarded. For very long trajectory, a temporal window is shifted along the data set, and an automatic adjustment of the algorithm parameter is performed
Keywords :
maximum likelihood estimation; position control; underwater vehicles; Viterbi algorithm; algorithm parameter; automatic estimation; decoupled trajectory; temporal window; trajectory estimation; ultrashort baseline acoustic positioning; underwater vehicle trajectory; Measurement standards; Noise measurement; Position measurement; Reactive power; Sampling methods; Sea measurements; Underwater acoustics; Underwater vehicles; Vehicle dynamics; Viterbi algorithm;
Conference_Titel :
Aerospace Conference, 2001, IEEE Proceedings.
Conference_Location :
Big Sky, MT
Print_ISBN :
0-7803-6599-2
DOI :
10.1109/AERO.2001.931491
