搜索结果: 1-13 共查到“海洋科学 Now Operational”相关记录13条 . 查询时间(0.125 秒)
World’s Richest Source of New In-Water Oceanographic Data Now Operational at Rutgers
New In-Water Oceanographic Data Now Operational Rutgers
2016/5/19
Funded by the National Science Foundation (NSF), the Ocean Observatories Initiative (OOI) is collecting, processing and sharing vast amounts of data on the oceans. The Rutgers team, which includes the...
Operational Observation Networks for Ports, a Large Estuary and an Open Shelf
Open Shelf Ports
2015/8/5
This paper describes the goals, capabilities and accomplishments of three operational coastal ocean observation networks. In the companion paper in this volume, the authors discuss reasons for the rap...
Navy Operational Global Atmospheric Prediction System (NOGAPS): Forcing for Ocean Models
Atmospheric Prediction System Ocean Models
2015/7/31
Modeling the interactions between the atmosphere and ocean has become a very active research area in the meteorological and oceanographic communities in recent years. Several factors have contributed ...
Overview of Operational Ocean Forecasting in the U.S. Navy: Past, Present & Future
Past Present & Future Operational Ocean
2015/7/31
"The future ain't what it used to be." Famous words from philosopher and National Baseball Hall of Famer, Yogi Berra. While his words are applicable in describing most situations, they are particularl...
Sea level changes observed by satellite altimeter instruments have long been recognized as a vital source for information on open ocean circulation. In a simplified manner, the ocean may be viewed as ...
US Navy Operational Global Ocean and Arctic Ice Prediction Systems
US Navy Operational Global Ocean Arctic Ice Prediction Systems
2015/7/20
The US Navy's operational global ocean nowcast/forecast system is presently comprised of the 0.08° HYbrid Coordinate Ocean Model (HYCOM) and the Navy Coupled Ocean Data Assimilation (NCODA). Its high ...
Overview of Operational Ocean Forecasting in the US Navy: Past,Present,and Future
Operational Ocean Forecasting US Navy Past Present Future
2015/7/20
A popular cigarette advertisement from the 1960s exclaimed, "You've come a long way, Baby!" That sentiment could be applied to Naval Oceanography. The US Navy has navigated the course of developing pr...
Operational Oceanography,End Users,and Social Network Sites:An Exploratory Analysis
Operational Oceanography End Users Social Network Sites Exploratory Analysis
2015/7/20
Many oceanographic products are currently being disseminated in a systematic and routine manner to end users. In recent years, data producers have gained insight into the specific requirements of the ...
Data Assembly and Processing For Operational Oceanography: 10 Years of Achievements
Operational Oceanography Processing
2015/7/6
Data assembly and processing centers are essential elements of the operational oceanography infrastructure. They provide data and products needed by modeling and data assimilation systems; they also p...
Operational Use and Impact of Satellite Remotely Sensed Ocean Surface Vector Winds in the Marine Warning and Forecasting Environment
Operational Use Satellite Remotely Sensed Ocean Surface Vector Winds Marine Warning Forecasting Environment
2015/7/3
In 2002, a National Oceanographic Partnership Program project was initiated with the ambitious objective of maximizing the use of currently and soon-to-be-available satellite ocean surface vector wind...
Valuable mineral resources are widely distributed throughout the seabed. autonomous underwater vehicles (AUVs) are preferable to remotely-operated vehicles (ROVs) when probing for such mineral resources as the extensive exploration area makes it difficult to maintain contact with operators. AUVs depend on batteries, so their power consumption should be reduced to extend exploration time. Power for conventional marine instrument systems is incorporated in their waterproof sealing. External intermittent control of this power source until termination of exploration is challenging due to limitations imposed by the underwater environment. Thus, the AUV must have a power control system that can improve performance and maximize use of battery capacity. The authors developed such a power control system with a three-step algorithm. It automatically detects underwater operational states and can limit power, effectively decreasing power consumption by about 15%.
surface piercing propeller boundary element method hydrodynamic characteristics
2011/9/13
Demand for high-speed marine vehicles (HSMVs) is high among both commercial and naval users. It is the duty of the marine vessel’s designer to provide a hull and propulsion system that diminishes drag...
BLUElink> Development of Operational Oceanography and Servicing in Australia
BLUElink operational oceanography high-performance computing data management system
2014/3/12
The Bureau of Meteorology is scheduled in 2007 to expand its oceanographic services for the Australian community to include operational mesoscale ocean forecasts. The past decade has seen the rapid de...
The Expanding Role of Ocean Color and Optics in the Changing Field of Operational Oceanography
Marine observation oceanography sea ocean optics
2015/7/29
Ocean observatories are changing the way oceanographers go to sea. The rapidly evolving field of ocean optics is producing new technologies and analysis procedures that are contributing to this transi...