Anisotropism-based sea surface temperature forecasting method for high-current area

An anisotropic, sea surface technology, applied in the field of marine environmental engineering, can solve the problems of poor forecast results and unsatisfactory assimilation results in strong current areas, and achieve the effect of ensuring accuracy

Active Publication Date: 2020-06-12
TIANJIN UNIV
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Problems solved by technology

However, the determination of the diffusion coefficient in this process is relatively empirical, and this method is isotropic in nature, and the assimilation results in the strong current area are not ideal, which leads to poor forecasting results in the numerical prediction of the strong current area

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[0038] In order to further understand the invention content, characteristics and effects of the present invention, the following examples are given, and detailed descriptions are as follows in conjunction with the accompanying drawings:

[0039] The diffusion coefficient of the traditional diffusion filter is generally set as a constant, which has the disadvantage of isotropy, and the error of the assimilation result is relatively large in sea areas with strong flow fields. The present invention adds the influence of ocean current information in the assimilation process, uses the advection-diffusion equation to filter, and uses the Smagorinsky equation to parameterize the diffusion coefficient, so that the method of the present invention can obtain an analysis field that is closer to the real field than the traditional method in the strong current area .

[0040] as attached figure 1 As shown, a sea surface temperature prediction method based on anisotropy in the strong curre...

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Abstract

The invention discloses an anisotropy-based sea surface temperature forecasting method for a high-current area. The method comprises the following steps: (1) giving an initial guess value of a controlvariable omega (x, y); (2) T is set as a research variable, and TS is obtained from a 'time' t = 0 forward integral advection diffusion model to t = S; obtaining a diffusion coefficient a by using aparameterization method; (3) performing integral tangent on the linear adjoint model to obtain a gradient g (omega) of the target function J (omega); (4) minimizing an algorithm optimization control variable omega (x, y); (5) circulating the steps (2) to (4) until the control variable omega (x, y) enables the target function J (omega) to reach the minimum value, and outputting the TS at the moment; and (6) establishing an analysis field according to the TS obtained in the step (5), wherein the established analysis field provides an initial field for forecasting the sea surface temperature of the strong current area. Aiming at the characteristic of isotropy of original diffusion filtering, a method of adding an advection term to a diffusion equation and parameterizing a diffusion coefficient is adopted, and the influence of ocean current is added to the whole assimilation process, so that an assimilation result is closer to a true value.

Description

technical field [0001] The invention relates to marine environmental engineering, in particular to a method for forecasting sea surface temperature in a strong current region based on anisotropy. Background technique [0002] Ocean numerical forecasting refers to solving the equations of fluid dynamics and thermodynamics describing the ocean evolution process through large-scale computer numerical calculations under certain initial and boundary value conditions based on the actual conditions of the ocean, and predicting the state of ocean movement for a certain period of time in the future. and ocean phenomena, that is, means of making ocean forecasts using current ocean conditions as input data. The most important aspect of how to obtain more accurate forecast results is the initial value problem. At present, the data assimilation method can obtain a more accurate initial field and improve the forecast accuracy. Usually, the standard three-dimensional variational data assim...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/04G06Q50/26
CPCG06Q10/04G06Q50/26Y02A90/10
Inventor 张亮胡艳张学峰
Owner TIANJIN UNIV
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