Advanced Datapresence From A New Generation Of Research Vessels

Christopher Glenn Romsos1, Jasmine Nahorniak2, Katie Watkins-Brandt1, Demian Bailey1 and Clare E Reimers3, (1)Oregon State University, College of Earth, Ocean and Atmospheric Sciences, Corvallis, OR, United States, (2)Oregon State University, Corvallis, OR, United States, (3)Oregon State University, College of Earth, Ocean, and Atmospheric Sciences, Corvallis, OR, United States
Abstract:
The design of the next generation Regional Class Research Vessels (RCRV) for the U.S. academic research fleet includes the development of advanced datapresence systems and capabilities. Datapresence is defined here as the real-time transfer of scientific and operational data between vessel and shore, to facilitate shore-based participation in oceanographic expeditions. Datapresent technologies on the RCRVs build upon the demonstrated success of telepresence activities on satellite-connected ships. Specifically, the RCRV datapresence design integrates a broad suite of ocean and meteorological sensors on the vessel into a networked environment with satellite communication access. In addition to enabling operational decisions from shore, these capabilities will bring ocean research to the classroom and local communities, advancing ocean and atmospheric literacy, via dynamic data products that support hands-on exercises and demonstrations of oceanographic and atmospheric processes. The operational requirements of data integration, management, visualization, and user-interaction are being developed and tested now and will be refined over the next 5-6 years during the RCRV construction and transition to operations phases. This presentation will illustrate the RCRV datapresence design and how datapresent technologies will transform these National Science Foundation-owned coastal ships into continuous sampling and data streaming platforms that leverage onshore resources for making efficient scientific and operational decisions.