The primary goal of this project was to integrate and demonstrate multiple levels of autonomous decision making capabilities on an autonomous underwater vehicle (AUV). These capabilities are (1) in-situ mission modification and planning; (2) vehicle control to optimize maneuvering, manage the power consumption, and maintain vehicle safety; (3) autonomous obstacle and terrain recognition; and (4) autonomous adjustments in the sonar line-ups and vehicle operating modes to optimize the sensing performance. This project supports the ONR iPUMA project in which ARL-UT is developing a wide-area search and obstacle-avoidance ahead-looking sonar (ALS) system to be integrated on a WHOI 12-3/4' AUV. The autonomous capabilities developed in this project will enable the AUV with an iPUMA ALS system to adapt to changing mission needs, environmental conditions, vehicle status, and sensor performance.
Integrated Mission, Vehicle, and Sensor Control of the iPUMA AUV
2011
5 pages
Report
Keine Angabe
Englisch
Computers, Control & Information Theory , Marine Engineering , Acoustic Detection , Search sonar , Self operation , Underwater vehicles , Avoidance , Searching , Undersea warfare , Work stations , Als(Ahead looking sonar) , Area survey , Autonomous decision making , Auv(Autonomous underwater vehicles) , Obstacle avoidance , Underwater workstations
Air Vehicle Mission Control and Management
NTIS | 1992
Engineering Index Backfile | 1963
|Integrated mission management operations
NTRS | 1971
Integrated Mission Management Operations
NTIS | 1971
SAE Technical Papers | 1965
|