Title :
Sonar-based bottom estimation in UUVs adopting a multi-hypothesis extended Kalman filter
Author :
Caccia, M. ; Veruggio, G. ; Casalino, G. ; Alloisio, S. ; Grosso, C. ; Cristi, R.
Author_Institution :
Istituto Automazione Navale, CNR, Genova, Italy
Abstract :
High precision bottom estimation techniques in unmanned underwater vehicles (UUVs) are examined in this paper. Environment sensing is performed by a high-frequency pencil beam profiling sonar mounted on Roby2, a small prototype UUV developed at CNR Istituto Automazione Navale. A multi-hypothesis extended Kalman filter to estimate the bottom slope and its distance from the vehicle is presented. Results obtained by applying this algorithm to real data collected with the vehicle moving in a high-diving pool are discussed. Algorithm improvements based on active sensing and “focusing attention” techniques are suggested
Keywords :
Kalman filters; marine systems; mobile robots; navigation; sonar; sonar tracking; CNR Istituto Automazione Navale; Roby2; active sensing; beam profiling sonar; bottom estimation; bottom slope; extended Kalman filter; mobile robots; unmanned underwater vehicles; Equations; Motion estimation; Nonlinear filters; Prototypes; Sea measurements; Sea surface; Sonar detection; Sonar measurements; Tracking; Underwater vehicles;
Conference_Titel :
Advanced Robotics, 1997. ICAR '97. Proceedings., 8th International Conference on
Conference_Location :
Monterey, CA
Print_ISBN :
0-7803-4160-0
DOI :
10.1109/ICAR.1997.620265
