About the Efficiency of Using "Extended" Fourier Transforms for Surface Characterization by the Deconvolution Technique
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Begun in 1973, the Review of Progress in Quantitative Nondestructive Evaluation (QNDE) is the premier international NDE meeting designed to provide an interface between research and early engineering through the presentation of current ideas and results focused on facilitating a rapid transfer to engineering development.
This site provides free, public access to papers presented at the annual QNDE conference between 1983 and 1999, and abstracts for papers presented at the conference since 2001.
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Abstract
Deconvolution of echoes scattered by a surface tends to give the response function to a Dirac pulse incident on the surface. In some cases, this response function is easily related to the geometry of the scatterer and could be used to characterize it. In practical, the situation of the Dirac pulse with infinite bandwidth is not realized even by a broad band transducer which acts as a band-pass filter. We propose here some simple arguments to extend the Fourier spectrum in order to improve the results of deconvolution. Experiments are performed with targets consisting either of small plane surfaces of various shapes or of randomly rough surfaces. Results are in good agreement with those expected using the Kichhoff-Helmholtz integral.