Enhancing tidal prediction accuracy in a deterministic model using chaos theory

The classical deterministic approach to tidal prediction is based on barotropic or baroclinic models with prescribed boundary conditions from a global model or measurements. The prediction by the deterministic model is limited by the precision of the prescribed initial and boundary conditions. Impro...

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Bibliographic Details
Published in:Advances in water resources 2004-07, Vol.27 (7), p.761-772
Main Authors: Sannasiraj, S.A., Zhang, Hong, Babovic, Vladan, Chan, Eng Soon
Format: Article
Language:English
Subjects:
Earth, ocean, space
Embedding theorem
Exact sciences and technology
External geophysics
Genetic algorithm
Local model
Physics of the oceans
Surface waves, tides and sea level. Seiches
Tidal forecasting
Time delay
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Summary:The classical deterministic approach to tidal prediction is based on barotropic or baroclinic models with prescribed boundary conditions from a global model or measurements. The prediction by the deterministic model is limited by the precision of the prescribed initial and boundary conditions. Improvement to the knowledge of model formulation would only marginally increase the prediction accuracy without the correct driving forces. This study describes an improvement in the forecasting capability of the tidal model by combining the best of a deterministic model and a stochastic model. The latter is overlaid on the numerical model predictions to improve the forecast accuracy. The tidal prediction is carried out using a three-dimensional baroclinic model and, error correction is instigated using a stochastic model based on a local linear approximation. Embedding theorem based on the time lagged embedded vectors is the basis for the stochastic model. The combined model could achieve an efficiency of 80% for 1 day tidal forecast and 73% for a 7 day tidal forecast as compared to the deterministic model estimation.
ISSN:0309-1708
1872-9657
DOI:10.1016/j.advwatres.2004.03.006