Lagrangian Analysis and Prediction of Coastal and Ocean Dynamics
Herausgeber: Griffa, Annalisa; Mariano, Arthur J.; Kirwan Jr, A. D. Annalisa
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Lagrangian Analysis and Prediction of Coastal and Ocean Dynamics
Herausgeber: Griffa, Annalisa; Mariano, Arthur J.; Kirwan Jr, A. D. Annalisa
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- Produkterinnerung
- Produkterinnerung
A review of Lagrangian techniques for researchers and graduate students in physical systems and biological modelling.
A review of Lagrangian techniques for researchers and graduate students in physical systems and biological modelling.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 524
- Erscheinungstermin: 1. Februar 2018
- Englisch
- Abmessung: 244mm x 170mm x 28mm
- Gewicht: 894g
- ISBN-13: 9781108460552
- ISBN-10: 1108460550
- Artikelnr.: 51381977
- Verlag: Cambridge University Press
- Seitenzahl: 524
- Erscheinungstermin: 1. Februar 2018
- Englisch
- Abmessung: 244mm x 170mm x 28mm
- Gewicht: 894g
- ISBN-13: 9781108460552
- ISBN-10: 1108460550
- Artikelnr.: 51381977
Preface; 1. Evolution of Lagrangian methods in oceanography H. Thomas Rossby; 2. Measuring surface currents with Surface Velocity Program drifters: the instrument
its data
and some recent results R. Lumpkin and M. Pazos; 3. Favourite trajectories A. S. Bower
H. Furey
S. Grodsky
J. Carton
L. R. Centurioni
P. P. Niiler
Y. Kim
D.-K. Lee
V.A. Sheremet
N. Garfield
C. A. Collins
T. A. Rago
R. Paquette
V. Kourafalou
E. Williams
T. Lee
M. Lankhorst
W. Zenk
Arthur J. Mariano
E. H. Ryan
P.-N. Poulain
H. Valdimarsson and S.-A. Malmberg; 4. Particle motion in a sea of eddies C. Pasquero
A. Bracco
A. Provenzale and J. B. Weiss; 5. Inertial particle dynamics on the rotating Earth N. Paldor; 6. Predictability of Lagrangian motion in the upper ocean L. I. Piterbarg
T. M. Ozgokmen
Annalisa Griffa and Arthur J. Mariano; 7. Lagrangian data assimilation in ocean general circulation models A. Molcard
Tamay Ozgokmen
Annalisa Griffa
L. I. Piterbarg and T. M. Chin; 8. Dynamic consistency and Lagrangian data in oceanography: mapping
assimilation and optimization schemes T. M. Chin
K. Ide
C. K. R. T. Jones
L. Kuznetsov and Arthur J. Mariano; 9. Observing turbulence regimes and Lagrangian dispersal properties in the ocean V. Rupolo; 10. Lagrangian biophysical dynamics D. B. Olson; 11. Plankton: Lagrangian inhabitants of the sea G. L. Hitchcock and R. K. Cowen; 12. A Lagrangian stochastic model for the dynamics of a stage structured population. Application to a copepod population G. Buffoni
M. G. Mazzocchi and S. Pasquali; 13. Lagrangian analysis and prediction of coastal and ocean dynamics (LAPCOD) Arthur J. Mariano and E. H. Ryan.
its data
and some recent results R. Lumpkin and M. Pazos; 3. Favourite trajectories A. S. Bower
H. Furey
S. Grodsky
J. Carton
L. R. Centurioni
P. P. Niiler
Y. Kim
D.-K. Lee
V.A. Sheremet
N. Garfield
C. A. Collins
T. A. Rago
R. Paquette
V. Kourafalou
E. Williams
T. Lee
M. Lankhorst
W. Zenk
Arthur J. Mariano
E. H. Ryan
P.-N. Poulain
H. Valdimarsson and S.-A. Malmberg; 4. Particle motion in a sea of eddies C. Pasquero
A. Bracco
A. Provenzale and J. B. Weiss; 5. Inertial particle dynamics on the rotating Earth N. Paldor; 6. Predictability of Lagrangian motion in the upper ocean L. I. Piterbarg
T. M. Ozgokmen
Annalisa Griffa and Arthur J. Mariano; 7. Lagrangian data assimilation in ocean general circulation models A. Molcard
Tamay Ozgokmen
Annalisa Griffa
L. I. Piterbarg and T. M. Chin; 8. Dynamic consistency and Lagrangian data in oceanography: mapping
assimilation and optimization schemes T. M. Chin
K. Ide
C. K. R. T. Jones
L. Kuznetsov and Arthur J. Mariano; 9. Observing turbulence regimes and Lagrangian dispersal properties in the ocean V. Rupolo; 10. Lagrangian biophysical dynamics D. B. Olson; 11. Plankton: Lagrangian inhabitants of the sea G. L. Hitchcock and R. K. Cowen; 12. A Lagrangian stochastic model for the dynamics of a stage structured population. Application to a copepod population G. Buffoni
M. G. Mazzocchi and S. Pasquali; 13. Lagrangian analysis and prediction of coastal and ocean dynamics (LAPCOD) Arthur J. Mariano and E. H. Ryan.
Preface; 1. Evolution of Lagrangian methods in oceanography H. Thomas Rossby; 2. Measuring surface currents with Surface Velocity Program drifters: the instrument
its data
and some recent results R. Lumpkin and M. Pazos; 3. Favourite trajectories A. S. Bower
H. Furey
S. Grodsky
J. Carton
L. R. Centurioni
P. P. Niiler
Y. Kim
D.-K. Lee
V.A. Sheremet
N. Garfield
C. A. Collins
T. A. Rago
R. Paquette
V. Kourafalou
E. Williams
T. Lee
M. Lankhorst
W. Zenk
Arthur J. Mariano
E. H. Ryan
P.-N. Poulain
H. Valdimarsson and S.-A. Malmberg; 4. Particle motion in a sea of eddies C. Pasquero
A. Bracco
A. Provenzale and J. B. Weiss; 5. Inertial particle dynamics on the rotating Earth N. Paldor; 6. Predictability of Lagrangian motion in the upper ocean L. I. Piterbarg
T. M. Ozgokmen
Annalisa Griffa and Arthur J. Mariano; 7. Lagrangian data assimilation in ocean general circulation models A. Molcard
Tamay Ozgokmen
Annalisa Griffa
L. I. Piterbarg and T. M. Chin; 8. Dynamic consistency and Lagrangian data in oceanography: mapping
assimilation and optimization schemes T. M. Chin
K. Ide
C. K. R. T. Jones
L. Kuznetsov and Arthur J. Mariano; 9. Observing turbulence regimes and Lagrangian dispersal properties in the ocean V. Rupolo; 10. Lagrangian biophysical dynamics D. B. Olson; 11. Plankton: Lagrangian inhabitants of the sea G. L. Hitchcock and R. K. Cowen; 12. A Lagrangian stochastic model for the dynamics of a stage structured population. Application to a copepod population G. Buffoni
M. G. Mazzocchi and S. Pasquali; 13. Lagrangian analysis and prediction of coastal and ocean dynamics (LAPCOD) Arthur J. Mariano and E. H. Ryan.
its data
and some recent results R. Lumpkin and M. Pazos; 3. Favourite trajectories A. S. Bower
H. Furey
S. Grodsky
J. Carton
L. R. Centurioni
P. P. Niiler
Y. Kim
D.-K. Lee
V.A. Sheremet
N. Garfield
C. A. Collins
T. A. Rago
R. Paquette
V. Kourafalou
E. Williams
T. Lee
M. Lankhorst
W. Zenk
Arthur J. Mariano
E. H. Ryan
P.-N. Poulain
H. Valdimarsson and S.-A. Malmberg; 4. Particle motion in a sea of eddies C. Pasquero
A. Bracco
A. Provenzale and J. B. Weiss; 5. Inertial particle dynamics on the rotating Earth N. Paldor; 6. Predictability of Lagrangian motion in the upper ocean L. I. Piterbarg
T. M. Ozgokmen
Annalisa Griffa and Arthur J. Mariano; 7. Lagrangian data assimilation in ocean general circulation models A. Molcard
Tamay Ozgokmen
Annalisa Griffa
L. I. Piterbarg and T. M. Chin; 8. Dynamic consistency and Lagrangian data in oceanography: mapping
assimilation and optimization schemes T. M. Chin
K. Ide
C. K. R. T. Jones
L. Kuznetsov and Arthur J. Mariano; 9. Observing turbulence regimes and Lagrangian dispersal properties in the ocean V. Rupolo; 10. Lagrangian biophysical dynamics D. B. Olson; 11. Plankton: Lagrangian inhabitants of the sea G. L. Hitchcock and R. K. Cowen; 12. A Lagrangian stochastic model for the dynamics of a stage structured population. Application to a copepod population G. Buffoni
M. G. Mazzocchi and S. Pasquali; 13. Lagrangian analysis and prediction of coastal and ocean dynamics (LAPCOD) Arthur J. Mariano and E. H. Ryan.