International Journal of Advance Research and Innovation
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= β 0 + β 1 . V + β 2 . f + β 3 . a + β 4 . V 2 + β 5 . f 2 + β 6 . a 2 + β 7 . V. f + β 8 . V . a + β 9 . a . f The multiple regression models are tested by aiding the analysis of variance (ANOVA). The data have been used to build the multiple regression model. The coefficients β 0 , β 1 , β 2 . . . β 9 are estimated with the least square method using MINITAB 14. Multilayer perception (MLP) architecture with back-propagation algorithm having two different variants is used in neural network. The performances of multiple regression and neural network-based models are compared by means of statistical methods. In this study, ANN structure is used for modeling and predicting surface roughness in turning operations. This fully connected hierarchical network structure has an input layer, a hidden layer, and an output layer. The back-propagation learning algorithms such as scaled conjugate gradient (SCG) and Levenberg–Marquardt (LM) were used to update the parameters in feed forward single hidden layers. The cutting speed (V), feed (f), and depth of cut (d) were considered as the process parameters. The input layers of the neural network consist of three neurons whereas the output layer had a single neuron that represents the predicted value of surface roughness. The logsig processing function and single hidden layer had been used. A trial and error scheme had been used to determine the appropriate number of hidden neurons. The number of hidden neurons was determined as four and five neurons. The maximum Volume 2, Issue 3 (2014) 676-683 ISSN 2347 - 3258 International Journal of Advance Research and Innovation 681 IJARI number of epochs and the learning rate value for each run were selected as 10,000 and 0.9, respectively. Yüklə 0,71 Mb. Dostları ilə paylaş:
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