To improve the defect detectability of Lamb wave inspection systems, the application of non-linear signal processing was investigated. The approach is based on a Warped Frequency Transform (WFT) to compensate the dispersive behavior of ultrasonic guided waves, followed by a Wigner-Ville time-frequency analysis and the Hough Transform to further improve localization accuracy. As a result, an automatic detection procedure to locate defect-induced reflections was demonstrated and successfully tested by analyzing numerically simulated Lamb waves propagating in an aluminum plate. The proposed method is suitable for defect detection and can be easily implemented for real-world structural health monitoring applications.
L. De Marchi, E. Baravelli, G. Cera, N. Speciale, A. Marzani (2012). Warped Wigner Hough Transform for defect reflection enhancement in ultrasonic guided wave monitoring. MATHEMATICAL PROBLEMS IN ENGINEERING, 2012, Article ID 358128, 1-15 [10.1155/2012/358128].
Warped Wigner Hough Transform for defect reflection enhancement in ultrasonic guided wave monitoring
DE MARCHI, LUCA;BARAVELLI, EMANUELE;SPECIALE, NICOLO'ATTILIO;MARZANI, ALESSANDRO
2012
Abstract
To improve the defect detectability of Lamb wave inspection systems, the application of non-linear signal processing was investigated. The approach is based on a Warped Frequency Transform (WFT) to compensate the dispersive behavior of ultrasonic guided waves, followed by a Wigner-Ville time-frequency analysis and the Hough Transform to further improve localization accuracy. As a result, an automatic detection procedure to locate defect-induced reflections was demonstrated and successfully tested by analyzing numerically simulated Lamb waves propagating in an aluminum plate. The proposed method is suitable for defect detection and can be easily implemented for real-world structural health monitoring applications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
