Prediction of significant wave height using regressive support vector machines

Wave parameters prediction is an important issue in coastal and offshore engineering. In this literature, several models and methods are introduced. In the recent years, the well-known soft computing approaches, Such as artificial neural networks, fuzzy and adaptive neuro-fuzzy inference systems and etc., have been known as novel methods to form intelligent systems, these approaches has also been used to predict wave parameters, as well. It is not a long time that support vector machine (SVM) is introduced as a strong machine learning and data mining tool. In this paper, it is used to predict significant wave height (H-s). The data set used in this study comprises wave wind data gathered from deep water locations in Lake Michigan. Current wind speed (u) and those belonging LIP to Six previous hours are given as input variables, while the significant wave height is the Output parameter. The SVM results are compared with those of artificial neural networks, multi-layer perception (MLP) and radial basis function (RBF) models. The results show that SVM can be successfully used for prediction of H-s. Furthermore, comparisons indicate that the error statistics of SVM model marginally outperforms ANN even with much less computational time required. (C) 2009 Elsevier Ltd. All rights reserved.