首页 /研究 /Intelligent autonomy for unmanned surface and underwater vehicles
OTHER

Intelligent autonomy for unmanned surface and underwater vehicles

Terry Huntsberger, Gail Woodward

发表年份
2011
引用次数
34

摘要

As the Autonomous Underwater Vehicle (AUV) and Autonomous Surface Vehicle (ASV) platforms mature in endurance and reliability, a natural evolution will occur towards longer, more remote autonomous missions. This evolution will require the development of key capabilities that allow these robotic systems to perform a high level of on-board decision-making, which would otherwise be performed by human operators. With more decision making capabilities, less a priori knowledge of the area of operations would be required, as these systems would be able to sense and adapt to changing environmental conditions, such as unknown topography, currents, obstructions, bays, harbors, islands, and river channels. Existing vehicle sensors would be dual-use; that is they would be utilized for the primary mission, which may be mapping or hydrographic reconnaissance; as well as for autonomous hazard avoidance, route planning, and bathymetric-based navigation. This paper describes a tightly integrated instantiation of an autonomous agent called CARACaS (Control Architecture for Robotic Agent Command and Sensing) developed at JPL (Jet Propulsion Laboratory) that was designed to address many of the issues for survivable ASV/AUV control and to provide adaptive mission capabilities. The results of some on-water tests with US Navy technology test platforms are also presented.

关键词

Remotely operated underwater vehicleComputer scienceSystems engineeringUnderwaterNavyReliability (semiconductor)Unmanned surface vehicleTestbedMobile robotEngineering

相关论文

查看 OTHER 分类全部论文