References
- Yusa N, Huang H, Miya K. Numerical evaluation of the ill-posedness of eddy current problems to size real cracks. NDT E Int. 2007;40:185–191.
- Yusa N. Development of computational inversion techniques to size cracks from eddy current signals. Nondestr. Test. Eval. 2009;24:39–52.10.1080/10589750802195469
- Rubinacci G, Tamburrino A, Ventre S. Fast numerical techniques for electromagnetic nondestructive evaluation. Nondestr. Test. Eval. 2009;24:165–194.10.1080/10589750802195568
- Rebican M, Chen Z, Yusa N, et al. Shape reconstruction of multiple cracks from ECT signals by means of a stochastic method. IEEE Trans. Magn. 2006;42:1079–1082.10.1109/TMAG.2006.870967
- Yusa N, Miya K. Discussion on the equivalent conductivity and resistance of stress corrosion cracks in eddy current simulations. NDT E Int. 2009;42:9–15.
- Chen Z, Rebican M, Yusa N, et al. Fast simulation of ECT signal due to a conductive crack of arbitrary width. IEEE Trans. Magn. 2006;42:683–686.10.1109/TMAG.2006.870973
- Janousek L, Smetana M, Capova K. Enhancing information level in eddy-current non-destructive inspection. Int. J. Appl. Electromagn. Mech. 2010;33:1149–1155.
- Janousek L, Smetana M, Alman M. Decline in ambiguity of partially conductive cracks’ depth evaluation from eddy current testing signals. Int. J. Appl. Electromagn. Mech. 2012;39:329–334.
- Chen Z, Miya K, Kurokawa K. Rapid prediction of eddy current testing signals using A − ϕ method and database. NDT E Int. 1999;32:29–36.
- Yusa N, Rebican M, Chen Z, et al. Three-dimensional inversion of volumetric defects profiles from electromagnetic nondestructive testing signals by means of stochastic methods with the aid of parallel computation. Inverse Prob. Sci. Eng. 2004;13:47–63.
- Glover F, Laguna M. Tabu Search. New York (NY): Kluwer Academic Publishers; 1997.10.1007/978-1-4615-6089-0
- Cluster Beowulf ATLAS. Numerical Modelling Laboratory, Politehnica University of Bucharest, Romania. 2012. Available from: www.lmn.pub.ro