A methodological study on the use of neutral networks for defect characterisation by means of a thermal method is presented. Neural networks are used here as defect classifiers, based oil the infrared emission of the target object after heating. In this kind of application, there is a high degree of uncertainty in defect class boundaries due to several factors, such as the noise in the measurement, the uneven heating of the target object and the anisotropies in its thermal conductivity. For this reason, the classical 'l of N' coding scheme during training did not provide satisfactory results. Much better results have instead been obtained ruing a smoother activation function for the output units during training. The non-destructive evaluation of material using neural networks proved extremely satisfactory, especially when compared to the classical procedures of thermographic analysis.
Application of neural network computing to thermal non-destructive evaluation
G Manduchi;S Marinetti;P Bison;E Grinzato
1997
Abstract
A methodological study on the use of neutral networks for defect characterisation by means of a thermal method is presented. Neural networks are used here as defect classifiers, based oil the infrared emission of the target object after heating. In this kind of application, there is a high degree of uncertainty in defect class boundaries due to several factors, such as the noise in the measurement, the uneven heating of the target object and the anisotropies in its thermal conductivity. For this reason, the classical 'l of N' coding scheme during training did not provide satisfactory results. Much better results have instead been obtained ruing a smoother activation function for the output units during training. The non-destructive evaluation of material using neural networks proved extremely satisfactory, especially when compared to the classical procedures of thermographic analysis.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
