Quincy, MA, USA—15 July 2011—Bluefin Robotics, a leader in the design and manufacturing of Autonomous Underwater Vehicles (AUVs) and the Laboratory for Autonomous Marine Sensing Systems (LAMSS) at the Massachusetts Institute of Technology (MIT) recently installed and demonstrated MOOS-IvP on a two-man portable Bluefin-9 AUV. The MOOS-IvP autonomy system is a set of third-party, open-source C++ modules that provide autonomy for robotic platforms. The joint effort took very little time with just a few days of testing on a virtual machine, one day in the lab performing the integration into the vehicle, and two days at-sea in Boston Harbor. Once in the field, the system was able to transmit wavelet-compressed sidescan sonar images via an acoustic modem and display them on the topside command and control console.
“This demonstration supports our objective to create a hybrid network of AUVs and autonomous surface craft for adaptive and collaborative ocean sensing and monitoring without continuous communication with the operators. Operating the MOOS-IvP autonomy system on heterogeneous platforms will provide a unified command and control infrastructure,” explained Dr. Henrik Schmidt, Director of LAMSS. “Bluefin vehicles are ideal test-beds because their proprietary Huxley autonomy software runs in an open source Linux environment, making it relatively straightforward to integrate a MOOS-IvP autonomy system.”
In the past, the MOOS-IvP autonomy system was integrated into two Bluefin-21 AUVs’ payload sections alongside various acoustic sources and arrays for underwater acoustic research. A separate, dedicated computer was used for the payload and the MOOS-IvP software. In cases like the Bluefin-9 which already has a payload, MOOS-IvP autonomy system was integrated directly onto the existing main vehicle computer so no hardware modifications were required. The MOOS-IvP software interfaced with the Huxley operating system via a standard Bluefin payload interface. Through this means, core vehicle data was shared and MOOS-IvP operated as a backseat driver.
The use of MOOS-IvP propels the state of AUV autonomy into the next phase. It allows users to develop new behaviors and smart payloads. Instead of directing the AUV to follow a pre-planned survey, users can instruct the vehicle to change its behavior based on payload data it collects in real-time. For instance, the AUV could descend to a certain water temperature and follow a thermocline based on the CTD data.
Results of this project will be presented by Chris Murphy and Toby Schneider at the MOOS Development and Applications Working Group Meeting scheduled for 19-20 July in Cambridge, Massachusetts. For more information on this project please visit the MOOS-IvP Website.
This project was sponsored by the Office of Naval Research (ONR) with supplemental support by Bluefin Robotics. PLease visit Development of MOOS-IvP is sponsored by the ONR code 311. The adaptive and collaborative environmental acoustic research performed in LAMSS is funded by ONR code 322OA.
ABOUT BLUEFIN ROBOTICS
Bluefin Robotics manufactures and develops Autonomous Underwater Vehicle (AUV) systems and technology. Founded in 1997, the company has grown to become a world leader in AUV products designed for defense, commercial, and scientific applications. Bluefin Robotics is a wholly-owned subsidiary of Battelle. For more information, please visit www.bluefinrobotics.com.