Accession Number : ADA531269


Title :   Development of a Semi-Autonomous Underwater Vehicle for Intervention Missions (SAUVIM Phase III-C)


Descriptive Note : Final rept. 25 Oct 2006-30 Oct 2009


Corporate Author : HAWAII UNIV HONOLULU (MANOA CAMPUS) DEPT OF MECHANICAL ENGINEERING


Personal Author(s) : Yuh, Junku ; Cancilliere, Frederick ; Choi, Song K


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a531269.pdf


Report Date : 28 Jan 2010


Pagination or Media Count : 106


Abstract : SAUVIM (Semi Autonomous Underwater Vehicle for Intervention Missions) involves the design and fabrication of an underwater vehicle that it is capable of autonomous interventions on the subsea installations, a task usually carried out by ROVs or human divers. The present final report covers the Phase III-C of SAUVIM. This is the conclusive phase of the project, which hosted further major upgrades and, most important, the demonstration of the first fully autonomous underwater manipulation in an unstructured environment. Submerged in the water, in its final demonstration, SAUVIM first performed the self-calibration routine, initializing its sub-systems. After the calibration step, SAUVIM began its pre-given mission -- to search for and tag an underwater object. The object's location was roughly given. Once the vehicle reached the area surrounding the object, it started scanning the area using a DIDSON camera to locate and identify the target. Once the object was detected, the vehicle approached it and positioned itself for optimized manipulation. Then, while the vehicle was floating in the water column, using the unified coordinated motion control of the vehicle and manipulator system, the vehicle performed an autonomous manipulation task by applying a device to the object for tagging. After completing the mission, the vehicle came back to the dock by using feature-based navigation. The whole sequence was autonomously done and the same mission was successfully repeated four times. This demonstration presented a technological breakthrough in the field as autonomous manipulation had been a bottleneck issue for underwater intervention missions.


Descriptors :   *ROBOTICS , *UNDERWATER VEHICLES , AUTONOMOUS NAVIGATION , PROTOTYPES , MANIPULATORS , DEMONSTRATIONS


Subject Categories : Cybernetics
      Submarine Engineering


Distribution Statement : APPROVED FOR PUBLIC RELEASE