Title :
Microwave Nondestructive Defect Identification using Sensitivity Analysis
Author :
Ali, Shirook M. ; Nikolova, Natalia K. ; Sangary, Nagula T.
Author_Institution :
Res. In Motion Ltd., Waterloo, Ont.
Abstract :
We propose a novel near-field approach to microwave non-destructive detection and evaluation of defects. The problem is expressed as an inverse least square problem solved using a gradient-based optimizer. The required response gradient is obtained with an adjoint-based sensitivity analysis technique developed here to handle materials with complex permittivity. It allows the recovery of the shape and the material parameters of the defect. The proposed semi-analytical sensitivity expression features improved accuracy and simplified implementation over the preceding approaches. It is verified with a practical example where we identify the parameters of a defect. The electromagnetic analysis is done with a frequency-domain solver based on the transmission line method. Its initial discretization grid is preserved throughout the optimization iterations
Keywords :
gradient methods; inverse problems; least squares approximations; microwave detectors; microwave technology; nondestructive testing; sensitivity analysis; transmission line theory; complex permittivity; discretization grid; electromagnetic analysis; frequency-domain solver; gradient-based optimizer; inverse least square problem; microwave nondestructive defect identification; sensitivity analysis; transmission line method; Inverse problems; Least squares approximation; Least squares methods; Motion analysis; Motion detection; Nondestructive testing; Sensitivity analysis; Shape; Transmission line matrix methods; Transmission lines;
Conference_Titel :
Antennas and Propagation Society International Symposium 2006, IEEE
Conference_Location :
Albuquerque, NM
Print_ISBN :
1-4244-0123-2
DOI :
10.1109/APS.2006.1710807
