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Reconstruction of Ocean Currents From Sparse and Noisy Data Peter C Chu and Leonid Ivanov Naval Postgraduate School T.P. Korzhova, T.M. Margolina, O.V.

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Presentation on theme: "Reconstruction of Ocean Currents From Sparse and Noisy Data Peter C Chu and Leonid Ivanov Naval Postgraduate School T.P. Korzhova, T.M. Margolina, O.V."— Presentation transcript:

1 Reconstruction of Ocean Currents From Sparse and Noisy Data Peter C Chu and Leonid Ivanov Naval Postgraduate School T.P. Korzhova, T.M. Margolina, O.V. Melnichenko Marine Hydrophysical Institute Sevastopol, Crimea, Ukraine chu@nps.navy.mil

2 Can we get the velocity signal from sparse and noisy data? Black Sea

3 How can we assimilate sparse and noisy velocity data into numerical model?

4 Flow Decomposition 2 D Flow (Helmholtz) 3D Flow (Toroidal & Poloidal): Very popular in astrophysics

5 3D Incompressible Flow If Incompressible We have

6 Flow Decomposition

7 Boundary Conditions

8 Basis Functions

9 Determination of Basis Functions Poisson Equations Γ - Rigid Boundary Γ’ – Open Boundary {λ k }, {μ m } are Eigenvalues. Basis Functions are predetermined.

10 Flow Reconstruction

11 Reconstructed Circulation

12 Conclusions Reconstruction is a useful tool for processing real-time velocity data with short duration and limited-area sampling. The scheme can handle highly noisy data. The scheme is model independent. The scheme can be used for assimilating sparse velocity data

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