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Monthly Reservoir Inflow Modeling using Time Lagged Recurrent Networks

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Title Monthly Reservoir Inflow Modeling using Time Lagged Recurrent Networks
 
Creator KOTE, S. A
JOTHIPRAKASH, V
 
Subject Multi-layer perceptron; stochastic model; reservoir inflow; time series; transformation; seasonal
 
Description This study evaluates the performance of two modeling approaches for an intermittent reservoir in series. In the first approach, artificial neural network (ANN) model has been developed and applied to the observed time series of Yedgaon reservoir in Upper Bhima River Basin, India. The ANN model results are compared with conventional univariate auto regressive, auto regressive moving average, and auto regressive integrated moving average models. The number of input nodes in ANN model is varied and found that all the training algorithms performed better with four nodes. Back propagation through time algorithm, conjugate gradient algorithm and radial basis function are employed with combination of activation functions such as sigmoid, hyperbolic tangent, step, quick prop, delta rule delta to achieve the best training network. Principal statistic criteria of the predicted inflow time series are compared with observed inflows. Eleven goodnessof- fit measures are also employed to select the best model in each case. The prediction of inflow using time lagged recurrent network with time delay neural network has resulted in a better scenario. However the high and low inflows are not captured well by the ANN network. In the second approach, the network is modified and adopted for predicting seasonal (monsoon) reservoir inflows and the results show accurate mapping of high and low inflows.
 
Publisher CESER
 
Date 2012-07-17T10:22:29Z
2012-07-17T10:22:29Z
2009
 
Type Article
 
Identifier International Journal of Tomography and Statistics,12( F09) 64-84
http://dspace.library.iitb.ac.in/jspui/handle/100/14383
 
Language English