Application of Sequential Learning Neural Networks to Civil Engineering Modeling Problems |
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| Authors: | S. Rajasekaran Deepa Suresh G.A. Vijayalakshmi Pai |
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| Affiliation: | (1) Department of Civil Engineering, PSG College of Technology, Coimbatore, Tamil Nadu, India, IN;(2) Derby Design Consultants, bu Dhabi, United Arab Emirates, AE;(3) Department of Mathematics and Computer Applications, PSG College of Technology, Coimbatore, Tamil Nadu, India, IN |
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| Abstract: | A sequential orthogonal approach to the building and training of a single hidden layer neural network is presented in this paper. The Sequential Learning Neural Network (SLNN) model proposed by Zhang and Morris [1]is used in this paper to tackle the common problem encountered by the conventional Feed Forward Neural Network (FFNN) in determining the network structure in the number of hidden layers and the number of hidden neurons in each layer. The procedure starts with a single hidden neuron and sequentially increases in the number of hidden neurons until the model error is sufficiently small. The classical Gram–Schmidt orthogonalization method is used at each step to form a set of orthogonal bases for the space spanned by output vectors of the hidden neurons. In this approach it is possible to determine the necessary number of hidden neurons required. However, for the problems investigated in this paper, one hidden neuron itself is sufficient to achieve the desired accuracy. The neural network architecture has been trained and tested on two practical civil engineering problems – soil classification, and the prediction o strength and workability of high performance concrete. |
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| Keywords: | : Gram– Schmidt orthogonalization High performance concrete Minimization principle Sequential Learning Neural Network Sigmoidal Neuron Steepest descent |
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