A genetic programming approach to rainfall-runoff modelling

Planning for sustainable development of water resources relies crucially on the data available. Continuous hydrologic simulation based onconceptual models has proved to be the appropriate tool for studyingrainfall-runoff processes and for providing necessary data. In recent years, artificial neural networks have emerged as a novel identification technique for the modelling of hydrological processes. However,they represent their knowledge in terms of a weight matrix that is not accessible to human understanding at present. This paper introduces genetic programming, which is an evolutionary computing method thatprovides a 'transparent' and structured system identification, to rainfall-runoff modelling. The genetic-programming approach is applied to flow prediction for the Kirkton catchment in Scotland (U.K.). The results obtained are compared to those attained using two optimally calibrated conceptual models and an artificial neural network. Correlations identified using data-driven approaches (genetic programming and neural network) are surprising in their consistency considering therelative size of the models and the number of variables included. These results also compare favourably with the conceptual models. [ABSTRACT FROM AUTHOR]