In this paper, effective flood forecasting models based on the support vector machine (SVM), which is a novel kind of neural networks, are proposed. Based on statistical learning theory, the SVM has three advantages over back-propagation network (BPN), which is the most frequently used neural network. Firstly, SVM has better generalization ability. Secondly, the architecture and the weights of the SVM are guaranteed to be unique and globally optimal. Finally, SVM is trained much more rapidly. An application is conducted to clearly demonstrate these three advantages. The results indicate that the proposed SVM-based models are more well-performed, robust and efficient than the existing BPN-based models. In addition to using SVM instead of BPN, typhoon characteristics, which are seldom regarded as key input for flood forecasting, are added to the proposed models to further improve the long lead-time forecasting during typhoons. A comparison between models with and without typhoon characteristics is also presented to confirm that the addition of typhoon characteristics significantly improves the forecasting performance and the improvement increases with increasing lead-time, especially when the rainfall data are not available. In conclusion, the typhoon characteristics should be used as input to the flood forecasting. The proposed SVM-based models are recommended as an alternative to the existing models because of their accuracy, robustness and efficiency. The proposed modeling technique is expected to be useful to improve the flood forecasting.