Journal of Environmental Hydrology

	Journal of Environmental Hydrology ISSN 1058-3912
	Electronic Journal of the International Association for Environmental Hydrology JEH Volume 18 (2010), Paper 10 Posted May 31, 2010 EVALUATION OF DAILY RAINFALL-RUNOFF MODEL USING MULTILAYER PERCEPTRON AND PARTICLE SWARM OPTIMIZATION FEEDFORWARD NEURAL NETWORKS Kuok King Kuok¹ Sobri Harun¹ Siti Mariyam Shamsuddin² Po-Chan Chiu³ ¹Department of Hydraulics and Hydrology, Faculty of Civil Engineering, University Technology Malaysia, Malaysia ²Department of Computer Graphics and Multimedia, Faculty of Computer Science and Information System, University Technology Malaysia, Malaysia ³Department of Information System, Faculty of Computer Science and Information Technology, University Malaysia Sarawak, Malaysia *ABSTRACT* In recent years, Artificial Neural Networks (ANNs) have been successfully used as a tool to model various nonlinear relations, and the method is appropriate for modeling the complex nature of hydrological systems. They are relatively fast and flexible, and are able to extract the relation between the inputs and outputs of a process without knowledge of the underlying physics. ANNs with sufficient hidden units are able to approximate any continuous function to any degree of accuracy by performing efficient training. In this study, two types of ANNs, namely, the multilayer perceptron neural network (MLP) and the newly developed particle swarm optimization feedforward neural network (PSONN) are applied to model the daily rainfall-runoff relationship for the Bedup Basin, Sarawak, Malaysia. Various models are investigated in searching for the optimal configuration of ANNs. Results are evaluated using the coefficient of correlation (R) and the nash-sutcliffe coefficient (E²). With the input data of current rainfall, antecedent rainfall and antecedent runoff, MLP simulated the current runoff perfectly for training with R=1.000 and E²=1.000, and R=0.911 and E²=0.8155 for testing data set. Meanwhile, PSONN also simulated the current runoff accurately with R=0.872 and E²=0.7754 for training data set, and R=0.900 and E²=0.8067 for testing data set. Thus, it can be concluded that ANNs are able to model the rainfall-runoff relationship accurately. The performance of the newly developed PSONN is comparable with the well-known MLP network, which had been successfully used to model rainfall-runoff for the Bedup Basin. Reference: Kuok, K.K., S. Harun, S.M. Shamsuddin, and P-C. Chiu. 2010. Evaluation of daily rainfall-runoff model using multilayer perceptron and particle swarm optimization feedforward neural networks. Journal of Environmental Hydrology, Vol. 18, Paper 10. CONTACT: Kuok King Kuok Department of Hydraulics and Hydrology Faculty of Civil Engineering University Technology Malaysia 81310 UTM, Johor Malaysia E-mail: kelvinkuok100@gmail.com
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