论文信息 - Newton-Kantorovitch algorithm applied to an electromagnetic inverse problem

Newton-Kantorovitch algorithm applied to an electromagnetic inverse problem

An efficient algorithm is presented to compute the shape of perfectly conducting cylinders via knowledge of scattering cross sections. This choice of scattering data avoids the difficulties linked with the phase measurements or reconstructions. The mathematical analysis is performed in terms of operator and functions, and the fundamental instability of the problem is demonstrated. Then the stability is restored by means of a Tikhonov-Miller regularization. The efficiency of the method is outlined by numerical examples. References are given which show that the same algorithm applies to other electromagnetic inverse problems, especially to gratings.

A. Roger | A. Roger

[1] Daniel Maystre,et al. Inverse scattering method in electromagnetic optics: Application to diffraction gratings , 1980 .

[2] D. Maystre,et al. On a problem of inverse scattering in optics: the dielectric inhomogeneous medium , 1978 .

[3] M. Bertero,et al. Restoration of optical objects using regularization. , 1978, Optics letters.

[4] Roger Petit,et al. Electromagnetic theory of gratings , 1980 .

[5] A. Roger. Grating profile optimizations by inverse scattering methods , 1980 .

[6] E. Hille,et al. On the characteristic values of linear integral equations , 1931, Proceedings of the National Academy of Sciences of the United States of America.

[7] W. Boerner,et al. An inverse scattering technique for electromagnetic bistatic scattering , 1969 .

[8] D. Maystre,et al. The Perfectly Conducting Grating from the Point of View of Inverse Diffraction , 1979 .

[9] K. Miller. Least Squares Methods for Ill-Posed Problems with a Prescribed Bound , 1970 .

[10] A. Roger,et al. Grating profile reconstruction by an inverse scattering method , 1980 .