Title :
Motion minimization of AUVs for improved imaging sensor performance beneath a seaway
Author :
Peterson, Ronald S. ; Nguyen, Thai C. ; Rodriguez, Rafael R.
Author_Institution :
Dahlgren Div., Naval Surface Warfare Center, Panama City, FL, USA
Abstract :
This paper summarizes the evaluation of methods for minimizing adverse autonomous underwater vehicle (AUY) motions which degrade imaging sensor performance in the highly energetic, littoral environment. The effort required the development and validation of an advanced wave force model capable of predicting wave forces and vehicle motions in the time-domain, in very shallow water, and near the surface. A range of operational, geometric, and active control motion minimization concepts were proposed, and a subset was quantitatively evaluated in this study: 1) AUV heading relative to the seas, and 2) the use of bowplanes. Results of the study show that the use of bowplanes on the proposed AUV can eliminate the majority of the adverse pitch and heave motions
Keywords :
image sensors; marine systems; minimisation; motion compensation; motion control; navigation; sonar; time-domain analysis; active motion control; autonomous underwater vehicle; bowplanes; heading control; heave motion; imaging sensor; motion minimization; pitch motion; synthetic aperture sonar; time-domain; wave force model; Degradation; Force sensors; Image sensors; Marine vehicles; Predictive models; Remotely operated vehicles; Sea surface; Surface waves; Time domain analysis; Underwater vehicles;
Conference_Titel :
Autonomous Underwater Vehicle Technology, 1994. AUV '94., Proceedings of the 1994 Symposium on
Conference_Location :
Cambridge, MA
Print_ISBN :
0-7803-1808-0
DOI :
10.1109/AUV.1994.518632
