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Military applications of ocean models
Jan Kristian JensenNorwegian Defence Research
Establishment
Norwegian Defence Research Establishment Forsvarets Forskningsinstitutt (FFI)
Ongoing projects on military meteorological & oceanographic services− Previous projects: Metoc (2002-2006), METOC II (2006-2011)
− Current project: GEOMETOC (2011-2015) − Main focus: Operational infrastructure, products and services
for meteorological and oceanographic data− In close cooperation with met.no and the Norwegian Defence,
the Navy in particular
The Royal Norwegian Navy: Heavy demand for operational services
METOC = Meteorology and Oceanography
Dedicated METOC department at naval base of Håkonsvern, Bergen– Education and training – Formulating user demands for services– Close and informal cooperation with met.no and FFI – Led by Lt. Commander Jon Tore Johnsen
Some crucial, but often overlooked aspects
The Navy is not interested in oceanography per se – but:How does conditions affect the planning and execution of
naval operations? Important distinction!
Infrastructure plays a vital role Information not on some web site somewhere – but at my fingertips
Met.no is an important partner for building today’s and tomorrows military (and civilian) infrastructure for METOC services– Norge Digitalt and EU’s INSPIRE directive for
information services– Automatic data transfer from met.no to classified
military networks– Re-using existing internet services when
implementing services at classified military network
what products should the ocean modellers provide to the navy?
• Current
• Sound speed
• Density
• Value-added services
Current speed & direction from ocean models
• It doesn’t need to be accurate in every detail – but it must be good enough to be of value in planning and execution of operations
• Very high resolution modelling is needed to replicate conditions in Norway’s complicated coastal topography
• Is this beyond the capabilities of today’s state of the art ocean modelling?
• Use in value added products (see later slide)
Sound speed
Sound speed important in submarine & anti-submarine operations
Vertical position of the strongest sound speed gradients is of particular interest
– Errors in ∂/∂z are very significant– Absolute errors are not important
as long as the gradients are replicated
– The thermocline and halocline must be adequately represented
– Variability due to mesoscala dynamics must be replicated
Calculated sonar performance (transmission loss) for a given set of sonar configurations and oceanographic conditions
Density
Density important in submarine operations – though not as crucial as sound speed gradient
Requirements similar to sound speed: Absolute errors aren’t that crucial, but location and strength of gradients are important.
Ula-class submarine
Value added servicesLeeway drift model
Probabilistic drift calculations of objects (persons, vessels, mines, containers) or substances (oil)
A large number of particles (N=500) are injected with start points that are pertubated in space&time relative to last known location.
NEW: Also backtracking capability You find something, where does it come from?
Currents, wind and waves are crucial input to this service
LEEWAY drift model GUI at kilden.met.no
LEEWAY model part of search and rescue module implemented in Teleplan Maria map system
(Maritime command and control system)