Robustness study of detection algorithms of multiple Imperfections in coarse grains materials
Type : Article de conférence
Auteur(s) : , ,
Année : 2003
Domaine : Electronique
Conférence: World Conference on Ultrasonics (WCU'2003)
Lieu de la conférence: Paris, FRANCE
Résumé en PDF :
Fulltext en PDF :
Mots clés : Ultrasonic NDE, split spectrum processing, Signal to noise ratio, Structure noise
Auteur(s) : , ,
Année : 2003
Domaine : Electronique
Conférence: World Conference on Ultrasonics (WCU'2003)
Lieu de la conférence: Paris, FRANCE
Résumé en PDF :
Fulltext en PDF :
Mots clés : Ultrasonic NDE, split spectrum processing, Signal to noise ratio, Structure noise
Résumé :
In this work, we propose to develop algorithms based on the Split Spectrum Processing (SSP) method associated with the multi-steps method based on "Group delay moving entropy" (GDME) allowing detecting and locating multiple imperfection echoes drowned in the structural noise of materials. In fact, GDME is based on the fact that defect echoes have a constant group delay while the noise has a random group delay. The investigation is performed with 4 known defect echoes with different characteristics (position, center frequency and bandwidth). The defect echo frequency is varied around the frequency of the input signal in order to evaluate, by SNR calculation, the robustness of the detection method. The grain noise signal is generated first, by a simple clutter model which consider the noise, in the time domain, as the superimposed of signal coming from backscaterers in the medium and second, experimentally by a material with coarse grains.