SAUVIM is for 6,000m depth. It has a robotic arm, various on-board sensors, batteries, VxWorks real-time controller, multi CPUs, and various advanced software.
NEW: Visit the SAUVIM Website.
SAUVIM is for 6,000m depth. It has a robotic arm, various on-board sensors,
batteries, VxWorks real-time controller, multi CPUs, and various advanced software.
Objective:
The primary research objective is to develop a Semi-Autonomous Underwater Vehicle
for Intervention Missions (SAUVIM). Unlike the fly-by autonomous underwater
vehicles (AUV), SAUVIM will have a manipulator work package. It will require
an advanced control system and a precise sensory system to maintain high accuracy
in station keeping and navigation.
Background:
Most intervention missions, including underwater plug/unplug, construction &
repair, cable streaming, mine hunting, and munitions retrieval- require physical
contact with the surroundings in the unstructured, underwater environment. Such
operations always increase the level of risk and present more difficult engineering
problems than fly-by and non-contact type operations. For these intervention
operations, the vehicle requires a dexterous robotic manipulator; thus the overall
system becomes a high degree-of-freedom (dof), multi-bodied system from the
coupling effects of the high degreee of accuracy even in the presence of unknown,
external disturbances, i.e. undersea currents. All these issues present very
complex engineering problems that have hindered the development of AUVs for
intervention missions. Currently, the state-of-the-art in machine intelligence
is insufficient to create a vehicle of full autonomy and reliability, especially
for intervention missions.
Development :
For detailed information about SAUVIM development please visit the dedicated website:
http://www.eng.hawaii.edu/~asl/Sauvim
Last updated
by G. Marani
November 6, 2008 3:42 PM