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CHIPS Articles: Naval Oceanography Aims to Become Leader in Unmanned Systems

Naval Oceanography Aims to Become Leader in Unmanned Systems
By Kaley Turfitt, Naval Meteorology and Oceanography Command Public Affairs - June 7, 2017
STENNIS SPACE CENTER, Miss. (NNS) — Over 300 people attended the first Naval Oceanography Unmanned Systems Operational Demonstration May 31 - June 2, hosted by Commander, Naval Meteorology and Oceanography Command (COMNAVMETOCCOM) at the Combat Readiness Training Center-Battlefield Airmen Center in Gulfport, Miss.

"Naval Oceanography has over two decades of experience operating unmanned systems," said COMNAVMETOCCOM and Oceanographer of the Navy Rear Adm. Tim Gallaudet. "The purpose of the demonstration was to build on that experience by expanding and strengthening our network of partners to innovate faster so we can make better decisions quicker than our adversaries."

To simulate Navy missions for the demonstration and test unmanned systems capabilities, the participants performed Fleet mission areas such as Humanitarian Assistance/Disaster Relief (HA/DR); Sea Control; Theater Anti-submarine Warfare (ASW); Intelligence, Surveillance and Reconnaissance (ISR); as well as a Cyber Challenge and an Unmanned Maritime Systems Certification program.

COMNAVMETOCCOM Deputy Commander and Technical Director Dr. Bill Burnett said, "We've been deploying unmanned systems in the Gulf of Mexico since March to not only showcase their ability to perform the 'dull, dirty and dangerous' missions to our partners in the Fleet and private sector, but also to assess the feasibility of hosting a 2018 Fleet Experimentation (FLEX) event for unmanned systems with the Naval Warfare Development Command."

The Mississippi Gulf Coast is too familiar with natural disasters that change the battlespace environment. The HA/DR mission combined near-shore data collection capabilities utilizing multiple IVER-3s and REMUS 100s to collect bathymetry and side scan sonar data. The data provides water depths and tactical recommendation products as well as hazards to navigation, clear transit and anchorages for incoming support vessels.

Accurate characterization of the physical environment is critical for planning tactical operations. Intelligence, Surveillance and Reconnaissance events utilized both airborne and underwater unmanned systems to contrast data product accuracy with environmental characterizations of riverine operations used by Special Boat Team 22. While an OceanServer IVER-3 vehicle and a 3D Robotics Solo Quadcopter rapidly collected bathymetry and topography, a GhostSwimmer - tuna-sized, biomimic, swimming vehicle - inspected the area for threats prior to mission execution.

In any environment, it is imperative that Navy forces understand the ocean and atmosphere. The Theater ASW mission provided near real-time oceanographic data to show how an accurate assessment of sound speed profiles better represents the ocean's effects on sonar performance. The Naval Oceanographic Office (NAVOCEANO) worked with the U.S. Air Force 53rd Weather Reconnaissance Squadron "Hurricane Hunters" to deploy profiling floats to measure conductivity, temperature and depth and drifters to track ocean currents and changing water column properties. These unmanned systems continuously collect data that is communicated to NAVOCEANO, who then processes it into ocean and atmospheric models that run on supercomputers at the Navy DoD Supercomputing Resource Center.

Knowing the environment improves the Fleet's ability to safely maneuver and maintain command of the seas. The Sea Control mission focused on deploying multiple, networked unmanned underwater and surface systems from USNS Maury (T-AGS 66) to deliver environmental assessments in support of surface navigation safety and mine countermeasures. As these systems collected bathymetry data, they would communicate positions back to a Maritime Operations Center (MOC). The future intent is to have all unmanned systems reporting their locations back to the 24/7 CTG 80.7 Command Center.

Rear Adm. Gallaudet said, "A dozen Navy entities participated in the operational demonstration, and we couldn't be more pleased with the results. We were able to accomplish all of our goals, but mainly we were able to show the world that Naval Oceanography is already a leader in unmanned systems."

COMNAVMETOCCOM directs and oversees more than 2,500 globally-distributed military and civilian personnel who collect, process and exploit environmental information to assist Fleet and Joint Commanders in all warfare areas to make better decisions faster than the adversary.

For more information, visit http://www.navy.mil, http://www.facebook.com/usnavy, or http://www.twitter.com/usnavy.

For more news from Naval Meteorology and Oceanography Command, visit www.navy.mil/local/cnmoc/.

Two gliders were deployed from USNS Maury in the Gulf of Mexico in March in support of Naval Oceanography Unmanned Systems Operational Demonstration. The map details their tracking data as of May 8, 2017. Gliders are autonomous underwater vehicles used to collect a variety of oceanographic data to better understand the ocean environment.
Two gliders were deployed from USNS Maury in the Gulf of Mexico in March in support of Naval Oceanography Unmanned Systems Operational Demonstration. The map details their tracking data as of May 8, 2017. Gliders are autonomous underwater vehicles used to collect a variety of oceanographic data to better understand the ocean environment.

Fleet Survey Team Survey Technician AG2 Jesse Osborne operates an Iver3 unmanned system via radio frequency remote during compass calibration mission in the Gulf of Mexico in preparation for bathymetric data collection in support of Naval Oceanography Unmanned Systems Operational Demonstration Humanitarian Assistance/Disaster Relief support scenario.
Fleet Survey Team Survey Technician AG2 Jesse Osborne operates an Iver3 unmanned system via radio frequency remote during compass calibration mission in the Gulf of Mexico in preparation for bathymetric data collection in support of Naval Oceanography Unmanned Systems Operational Demonstration Humanitarian Assistance/Disaster Relief support scenario.

Nathan Hopper (right) of the Naval Research Laboratory at Stennis Space Center, Miss., explains to a guest at the Naval Oceanography Unmanned Systems Demonstration on May 31, 2017, how environmental data collected by unmanned systems provides enhanced decision making to the warfighter.
Nathan Hopper (right) of the Naval Research Laboratory at Stennis Space Center, Miss., explains to a guest at the Naval Oceanography Unmanned Systems Demonstration on May 31, 2017, how environmental data collected by unmanned systems provides enhanced decision making to the warfighter.
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