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Electronic Resource

On initial, boundary conditions and viscosity coefficient control for Burgers' equation (1998)

Leredde, Y. ; Lellouche, J.-M. ; Devenon, J.-L. ; [et al.]

Chichester : Wiley-Blackwell

International Journal for Numerical Methods in Fluids 28 (1998), S. 113-128

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ISSN: 0271-2091

Keywords: optimal control ; Burgers' equation ; data assimilation ; adjoint model ; Engineering ; Numerical Methods and Modeling

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: In order to use the optimal control techniques in models of geophysical flow circulation, an application to a 1D advection-diffusion equation, the so-called Burgers' equation, is described. The aim of optimal control is to find the best parameters of the model which ensure the closest simulation to the observed values. In a more general case, the continuous problem and the corresponding discrete form are formulated. Three kinds of simulation are realized to validate the method. Optimal control processes by initial and boundary conditions require an implicit discretization scheme on the first time step and a decentered one for the non-linear advection term on boundaries. The robustness of the method is tested with a noised dataset and random values of the initial controls. The optimization process of the viscosity coefficient as a time- and space-dependent variable is more difficult. A numerical study of the model sensitivity is carried out. Finally, the numerical application of the simultaneous control by the initial conditions, the boundary conditions and the viscosity coefficient allows a possible influence between controls to be taken into account. These numerical experiments give methodological rules for applications to more complex situations. © 1998 John Wiley & Sons, Ltd.

Additional Material: 11 Ill.

Type of Medium: Electronic Resource

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Forecasting the mixed-layer depth in the Northeast Atlantic: an ensemble approach, with uncertainties based on data from operational ocean forecasting systems (2014)

Drillet, Y. ; Lellouche, J. M. ; Levier, B. ; [et al.]

Copernicus

In: Ocean Science. 2014; 10(6): 1013-1029. Published 2014 Dec 12. doi: 10.5194/os-10-1013-2014.

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Publication Date: 2014-12-12

Description: Operational systems operated by Mercator Ocean provide daily ocean forecasts, and combining these forecasts we can produce ensemble forecast and uncertainty estimates. This study focuses on the mixed-layer depth in the Northeast Atlantic near the Porcupine Abyssal Plain for May 2013. This period is of interest for several reasons: (1) four Mercator Ocean operational systems provide daily forecasts at a horizontal resolution of 1/4, 1/12 and 1/36° with different physics; (2) glider deployment under the OSMOSIS project provides observation of the changes in mixed-layer depth; (3) the ocean stratifies in May, but mixing events induced by gale force wind are observed and forecast by the systems. Statistical scores and forecast error quantification for each system and for the combined products are presented. Skill scores indicate that forecasts are consistently better than persistence, and temporal correlations between forecast and observations are greater than 0.8 even for the 4-day forecast. The impact of atmospheric forecast error, and for the wind field in particular (miss or time delay of a wind burst forecast), is also quantified in terms of occurrence and intensity of mixing or stratification events.

Print ISSN: 1812-0784

Electronic ISSN: 1812-0792

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Evaluation of global monitoring and forecasting systems at Mercator Océan (2013)

Lellouche, J.-M. ; Le Galloudec, O. ; Drévillon, M. ; [et al.]

Copernicus

In: Ocean Science. 2013; 9(1): 57-81. Published 2013 Jan 17. doi: 10.5194/os-9-57-2013.

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Publication Date: 2013-01-17

Description: Since December 2010, the MyOcean global analysis and forecasting system has consisted of the Mercator Océan NEMO global 1/4° configuration with a 1/12° nested model over the Atlantic and the Mediterranean. The open boundary data for the nested configuration come from the global 1/4° configuration at 20° S and 80° N. The data are assimilated by means of a reduced-order Kalman filter with a 3-D multivariate modal decomposition of the forecast error. It includes an adaptive-error estimate and a localization algorithm. A 3-D-Var scheme provides a correction for the slowly evolving large-scale biases in temperature and salinity. Altimeter data, satellite sea surface temperature and in situ temperature and salinity vertical profiles are jointly assimilated to estimate the initial conditions for numerical ocean forecasting. In addition to the quality control performed by data producers, the system carries out a proper quality control on temperature and salinity vertical profiles in order to minimise the risk of erroneous observed profiles being assimilated in the model. This paper describes the recent systems used by Mercator Océan and the validation procedure applied to current MyOcean systems as well as systems under development. The paper shows how refinements or adjustments to the system during the validation procedure affect its quality. Additionally, we show that quality checks (in situ, drifters) and data sources (satellite sea surface temperature) have as great an impact as the system design (model physics and assimilation parameters). The results of the scientific assessment are illustrated with diagnostics over the year 2010 mainly, assorted with time series over the 2007–2011 period. The validation procedure demonstrates the accuracy of MyOcean global products, whose quality is stable over time. All monitoring systems are close to altimetric observations with a forecast RMS difference of 7 cm. The update of the mean dynamic topography corrects local biases in the Indonesian Throughflow and in the western tropical Pacific. This improves also the subsurface currents at the Equator. The global systems give an accurate description of water masses almost everywhere. Between 0 and 500 m, departures from in situ observations rarely exceed 1 °C and 0.2 psu. The assimilation of an improved sea surface temperature product aims to better represent the sea ice concentration and the sea ice edge. The systems under development are still suffering from a drift which can only be detected by means of a 5-yr hindcast, preventing us from upgrading them in real time. This emphasizes the need to pursue research while building future systems for MyOcean2 forecasting.

Print ISSN: 1812-0784

Electronic ISSN: 1812-0792

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Towards a regional ocean forecasting system for the IBI (Iberia-Biscay-Ireland area): developments and improvements within the ECOOP project framework (2012)

Cailleau, S. ; Chanut, J. ; Lellouche, J.-M. ; [et al.]

Copernicus

In: Ocean Science. 2012; 8(2): 143-159. Published 2012 Mar 08. doi: 10.5194/os-8-143-2012.

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Publication Date: 2012-03-08

Description: The regional ocean operational system remains a key element in downscaling from large scale (global or basin scale) systems to coastal ones. It enables the transition between systems in which the resolution and the resolved physics are quite different. Indeed, coastal applications need a system to predict local high frequency events (inferior to the day) such as storm surges, while deep sea applications need a system to predict large scale lower frequency ocean features. In the framework of the ECOOP project, a regional system for the Iberia-Biscay-Ireland area has been upgraded from an existing V0 version to a V2. This paper focuses on the improvements from the V1 system, for which the physics are close to a large scale basin system, to the V2 for which the physics are more adapted to shelf and coastal issues. Strong developments such as higher regional physics resolution in the NEMO Ocean General Circulation Model for tides, non linear free surface and adapted vertical mixing schemes among others have been implemented in the V2 version. Thus, regional thermal fronts due to tidal mixing now appear in the latest version solution and are quite well positioned. Moreover, simulation of the stratification in shelf areas is also improved in the V2.

Print ISSN: 1812-0784

Electronic ISSN: 1812-0792

Topics: Geosciences

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Design and validation of MEDRYS, a Mediterranean Sea reanalysis over 1992–2013 (2015)

Hamon, M. ; Beuvier, J. ; Somot, S. ; [et al.]

Copernicus

In: Ocean Science Discussions. 2015; 12(4): 1815-1867. Published 2015 Aug 18. doi: 10.5194/osd-12-1815-2015.

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Publication Date: 2015-08-18

Description: The French research community on the Mediterranean Sea modelling and the French operational ocean forecasting center Mercator Océan have gathered their skill and expertise in physical oceanography, ocean modelling, atmospheric forcings and data assimilation, to carry out a MEDiterranean sea ReanalYsiS (MEDRYS) at high resolution for the period 1992–2013. The ocean model used is NEMOMED12, a Mediterranean configuration of NEMO with a 1/12° (∼ 7 km) horizontal resolution and 75 vertical z levels with partial steps. At the surface, it is forced by a new atmospheric forcing dataset (ALDERA), coming from a dynamical downscaling of the ERA-Interim atmospheric reanalysis by the regional climate model ALADIN-Climate with a 12 km horizontal and 3 h temporal resolutions. This configuration is used to carry a 34 year free simulation over the period 1979–2013 (NM12-FREE) which is the initial state of the reanalysis in October 1992. The first version of MEDRYS uses the existing Mercator Océan data assimilation system SAM that is based on a reduced-order Kalman filter with a 3-D multivariate modal decomposition of the forecast error. Altimeter data, satellite SST and temperature and salinity vertical profiles are jointly assimilated. This paper describes the configuration we used to perform the MEDRYS simulation. We then first validate the skills of the data assimilation system. It is shown that the data assimilation restores a good averaged temperature and salinity in intermediate layers compared to the free simulation. No particular biases are identified in the bottom layers. However, the reanalysis show slight positive biases of 0.02 psu and 0.15 °C above 150 m depth. In the validation stage, it is also shown that the assimilation allows to better reproduce water, heat and salt transports through the Strait of Gibraltar. Finally, the ability of the reanalysis to represent the sea surface high frequency variability is pointed out.

Print ISSN: 1812-0806

Electronic ISSN: 1812-0822

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Forecasting the mixed layer depth in the north east Atlantic: an ensemble approach, with uncertainties based on data from operational oceanic systems (2014)

Drillet, Y. ; Lellouche, J. M. ; Levier, B. ; [et al.]

Copernicus

In: Ocean Science Discussions. 2014; 11(3): 1435-1472. Published 2014 Jun 11. doi: 10.5194/osd-11-1435-2014.

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Publication Date: 2014-06-11

Description: Operational systems operated by Mercator Océan provide daily ocean forecasts, and combining these forecasts we can produce ensemble forecast and uncertainty estimates. This study focuses on the mixed layer depth in the North East Atlantic near the Porcupine Abyssal Plain for May 2013. This period is of interest for several reasons: (1) four Mercator Océan operational systems provide daily forecasts at a horizontal resolution of 1/4°, 1/12° and 1/36° with different physics; (2) glider deployment under the OSMOSIS project provides observation of the changes in mixed layer depth; (3) the ocean stratifies in May, but mixing events induced by gale force wind are observed and forecasted by the systems. A statistical approach and forecast error quantification for each system and for the combined products are presented. Skill scores indicate that forecasts are in any case better than persistence, and temporal correlations between forecast and observations are greater than 0.8 even for the 4 day forecast. The impact of atmospheric forecast error, and for the wind field in particular, is also quantified in terms of the forecast time delay and the intensity of mixing or stratification events.

Print ISSN: 1812-0806

Electronic ISSN: 1812-0822

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Evaluation of real time and future global monitoring and forecasting systems at Mercator Océan (2012)

Lellouche, J.-M. ; Le Galloudec, O. ; Drévillon, M. ; [et al.]

Copernicus

In: Ocean Science Discussions. 2012; 9(2): 1123-1185. Published 2012 Mar 20. doi: 10.5194/osd-9-1123-2012.

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Publication Date: 2012-03-20

Description: Since December 2010, the global analysis and forecast of the MyOcean system consists in the Mercator Océan NEMO global 1/4° configuration with a 1/12° "zoom" over the Atlantic and Mediterranean Sea. The zoom open boundaries come from the global 1/4° at 20° S and 80° N. The data assimilation uses a reduced order Kalman filter with a 3-D multivariate modal decomposition of the forecast error. It includes an adaptative error and a localization algorithm. A 3D-Var scheme corrects for the slowly evolving large-scale biases in temperature and salinity. Altimeter data, satellite temperature and in situ temperature and salinity vertical profiles are jointly assimilated to estimate the initial conditions for the numerical ocean forecasting. This paper gives a description of the recent systems. The validation procedure is introduced and applied to the current and future systems. This paper shows how the validation impacts on the quality of the systems. It is shown how quality check (in situ, drifters) and data source (satellite temperature) impacts as much as the systems design (model physics and assimilation parameters). The validation demonstrates the accuracy of the MyOcean global products. Their quality is stable in time. The future systems under development still suffer from a drift. This could only be detected with a 5 yr hindcast of the systems. This emphasizes the need for continuous research efforts in the process of building future versions of MyOcean2 forecasting capacities.

Print ISSN: 1812-0806

Electronic ISSN: 1812-0822

Topics: Geosciences

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Towards a regional ocean forecasting system for the IBI (Iberia-Biscay-Ireland area): developments and improvements within the ECOOP project framework (2011)

Cailleau, S. ; Chanut, J. ; Lellouche, J.-M. ; [et al.]

Copernicus

In: Ocean Science Discussions. 2011; 8(5): 1937-1977. Published 2011 Sep 07. doi: 10.5194/osd-8-1937-2011.

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Publication Date: 2011-09-07

Description: ECOOP project allowed the improvement of the regional and coastal operational forecasting systems for the different European Seas. In the Iberia-Biscay-Ireland area (IBI) a regional system has been developed and improved for the project in order to provide IBI partners the best initial and boundary conditions to their embedded coastal systems. End users could also get access to the regional hindcasts and forecasts through the ECOOP website. This system has been upgraded as follow: a first existing version V0, a second base-line version V1 ready for the ECOOP Target Operational Period and a third one V2 which consists in a new generation regional system. This paper especially pays attention to the improvements from the V1 system, whose physics are close to a large scale basin system, to the V2 one which physics are more adapted to shelf and coastal issues. Strong developments which allow further regional physics resolution in the NEMO OGCM such as tide, non linear free surface and adapted vertical mixing scheme among other have been carried out from V1 to V2 versions for the project. Thus, regional thermal fronts due to tidal mixing appear in V2 solution and are quite well placed. Moreover, simulation of the stratification in shelf areas is also improved in V2.

Print ISSN: 1812-0806

Electronic ISSN: 1812-0822

Topics: Geosciences

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Boundary control of Burgers' equation—a numerical approach (1994)

Lellouche, J.-M. ; Devenon, J.-L. ; Dekeyser, I.

Elsevier

In: Computers & Mathematics with Applications. 1994; 28(5): 33-44. Published 1994 Sep 01. doi: 10.1016/0898-1221(94)00138-3.

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Publication Date: 1994-09-01

Print ISSN: 0898-1221

Electronic ISSN: 1873-7668

Topics: Mathematics

Published by Elsevier

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Atlas des données hydrologiques des côtes Tunisiennes. (2018)

Ben Ismail Hamouda, Sana. ; Sammari, Chérif. ; Béranger, Karine. ; [et al.]

Institut National des Sciences et Technologies de la Mer (INSTM) | Tunis, Tunisie

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Publication Date: 2021-05-19

Description: L'Atlas présente des sections verticales et des cartes de plusieurs paramètres de l' eau de mer (température, salinité, diagrammes thêta-S) mesurés lors des campagnes océanographiques effectuées à bord R / V Hannibal de l'Institut national des sciences et technologies marines (INSTM). L'Atlas présente également les sorties du modèle méditerranéen PSY2V2 de Mercator (et Béranger al., 2009) qui sont basés sur le code de la circulation générale océanique OPA développé au LOCEAN (Madec et al., 1998).

Description: The Atlas presents vertical sections and maps of several sea water parameters (temperature, salinity, theta-S diagrams) measured during the oceanographic campagnes carried out on board R/V Hannibal of the National Institute of Marine Science and Technologies (INSTM). The Atlas presents also the outputs of the Mediterranean Model PSY2V2 of Mercator (Béranger et al., 2009) which are based on the code of general ocean circulation OPA developed at LOCEAN (Madec et al., 1998).

Description: Published

Keywords: Atlas ; Hydrologie

Repository Name: AquaDocs

Type: Book/Monograph/Conference Proceedings , Not Known

Format: 169 pp.

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