ANN and Fuzzy Logic Models for Simulating Event-Based Rainfall-Runoff
Date
2006-12-01Metadata
Show full item recordAbstract
This study presents the development of artificial neural network _ANN_ and fuzzy logic _FL_ models for predicting event-based rainfall runoff and tests these models against the kinematic wave approximation _KWA_. A three-layer feed-forward ANN was developed using the sigmoid function and the backpropagation algorithm. The FL model was developed employing the triangular fuzzy membership functions for the input and output variables. The fuzzy rules were inferred from the measured data. The measured event based rainfall-runoff peak discharge data from laboratory flume and experimental plots were satisfactorily predicted by the ANN, FL, and KWA models. Similarly, all the three models satisfactorily simulated event-based rainfall-runoff hydrographs from experimental plots with comparable error measures. ANN and FL models also satisfactorily simulated a measured hydrograph from a small watershed 8.44 km2 in area. The results provide insights into the adequacy of ANN and FL methods as well as their competitiveness against the KWA for simulating event-based rainfall-runoff processes.
Department
Biological and Agricultural Engineering (College of Agriculture and Life Sciences)Collections
Citation
Singh, Vijay P.; Tayfur, Gokmen (2006). ANN and Fuzzy Logic Models for Simulating Event-Based Rainfall-Runoff. Available electronically from https : / /hdl .handle .net /1969 .1 /164659.