TY - GEN
T1 - Neural networks with radial basis function and NARX structure for material lifetime assessment application
AU - Hidayat, Mas Irfan P.
AU - Berata, Wajan
PY - 2011
Y1 - 2011
N2 - In the present paper, neural networks (NN) with radial basis function and non-linear autoregressive exogenous inputs (NARX) structure is introduced and first applied for predicting fatigue lives of composite materials. Fatigue life assessment of multivariable amplitude loading linked to the concept of constant life diagrams (CLD), the well known concept in fatigue of material analysis and design, was investigated. With this respect, fatigue life assessment using the RBFNN-NARX model was realized as one-step ahead prediction with respect to each stress level-S corresponding to stress ratio values-R arranged in such a way that transition took place from a fatigue region to another one in the CLD. As a result, composite materials lifetime assessment can be fashioned for a wide spectrum of loading in an efficient manner. In addition, the produced mean squared error (MSE) values of fatigue life prediction results of the RBFNN-NARX model competed favorably, even better, with those of the MLP-NARX model previously obtained. The simulation results for different multidirectional laminates of polymeric-based composites and loading situations were presented and discussed.
AB - In the present paper, neural networks (NN) with radial basis function and non-linear autoregressive exogenous inputs (NARX) structure is introduced and first applied for predicting fatigue lives of composite materials. Fatigue life assessment of multivariable amplitude loading linked to the concept of constant life diagrams (CLD), the well known concept in fatigue of material analysis and design, was investigated. With this respect, fatigue life assessment using the RBFNN-NARX model was realized as one-step ahead prediction with respect to each stress level-S corresponding to stress ratio values-R arranged in such a way that transition took place from a fatigue region to another one in the CLD. As a result, composite materials lifetime assessment can be fashioned for a wide spectrum of loading in an efficient manner. In addition, the produced mean squared error (MSE) values of fatigue life prediction results of the RBFNN-NARX model competed favorably, even better, with those of the MLP-NARX model previously obtained. The simulation results for different multidirectional laminates of polymeric-based composites and loading situations were presented and discussed.
KW - Composites
KW - Lifetime assessment
KW - NARX
KW - Radial basis function
KW - Variable amplitude loading
UR - http://www.scopus.com/inward/record.url?scp=79960420930&partnerID=8YFLogxK
U2 - 10.4028/www.scientific.net/AMR.277.143
DO - 10.4028/www.scientific.net/AMR.277.143
M3 - Conference contribution
AN - SCOPUS:79960420930
SN - 9783037851791
T3 - Advanced Materials Research
SP - 143
EP - 150
BT - Advanced Materials Research QiR 12
T2 - 12th International Conference on Quality in Research, QiR 2011
Y2 - 4 July 2011 through 7 July 2011
ER -