A comparative study of three neural network forecast combination methods for simulated river flows of different rainfall-runoff models
|Title:||A comparative study of three neural network forecast combination methods for simulated river flows of different rainfall-runoff models||Authors:||Shamseldin, Asaad Y.; O'Connor, Kieran M.; Nasr, Ahmed Elssidig||Permanent link:||http://hdl.handle.net/10197/2421||Date:||Oct-2007||Online since:||2010-08-23T16:00:39Z||Abstract:||The performance of three artificial neural network (NN) methods for combining simulated river flows, based on three different neural network structures, are compared. These network structures are; the simple neural network (SNN), the radial basis function neural network (RBFNN) and the multi-layer perceptron neural network (MLPNN). Daily data of eight catchments, located in different parts of the world, and having different hydrological and climatic conditions, are used to enable comparisons of the performances of these three methods. In the case of each catchment, each neural network combination method synchronously uses the simulated river flows of four rainfall-runoff models operating in design non-updating mode to produce the combined river flows. Two of these four models are black-box, the other two being conceptual models. The results of the study show that the performances of all three combination methods are, on average, better than that of the best individual rainfall-runoff model utilized in the combination, i.e. that the combination concept works. In terms of the Nash-Sutcliffe R2 model efficiency index, the MLPNN combination method generally performs better than the other two combination methods tested. For most of the catchments, the differences in the R2 values of the SNN and the RBFNN combination methods are not significant but, on average, the SNN form performs marginally better than the more complex RBFNN alternative. Based on the results obtained for the three NN combination methods, the use of the multi-layer perceptron neural network (MLPNN) is recommended as the appropriate NN form for use in the context of combining simulated river flows.||Funding Details:||Not applicable||Type of material:||Journal Article||Publisher:||Taylor & Francis||Journal:||Hydrological Sciences Journal-Journal Des Sciences Hydrologiques||Volume:||52||Issue:||5||Start page:||896||End page:||916||Copyright (published version):||2007 IAHS Press||Keywords:||Neural network combination methods; Rainfall-runoff model; River flow forecasting; Multi-layer perceptron; Radial basis function; Simple neural network||Subject LCSH:||Neural networks (Computer science)
|DOI:||10.1623/hysj.52.5.896||Other versions:||http://dx.doi.org/10.1623/hysj.52.5.896||Language:||en||Status of Item:||Peer reviewed||ISSN:||2150-3435 (electronic)
|Appears in Collections:||Critical Infrastructure Group Research Collection|
Civil Engineering Research Collection
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