论文信息 - Modeling considerations for imaging with a standard metal detector

Modeling considerations for imaging with a standard metal detector

A standard pulsed induction metal. detector is used to image buried metallic objects by scanning an area of interest. It is shown that, under specific hypotheses, the output image is the result of the convolution of a target function with a kernel depending on the incident magnetic field. Several hypotheses are considered, leading to different kernel shapes and different interpretations of the target function. As the detector imaging function is a low-pass filter, shape's details spread out and the resulting raw image are blurred, Since a high-pass restoration filter must be used to deconvolve the raw images, care must be taken to avoid a strong amplification of noise. The imaging filter is computed using a numerical simulation of the incident magnetic field. Finally, the restoration filter is computed using the Wiener approach. Results are shown for a couple of metallic pieces.

Marc Acheroy | Pascal Druyts | Lionel Merlat

[1] B. R. Hunt,et al. Digital Image Restoration , 1977 .

[2] Azriel Rosenfeld,et al. Digital Picture Processing , 1976 .

[3] Marc Acheroy,et al. MOTION ESTIMATION OF A HAND-HELD MINE DETECTOR , 2000 .

[4] I. J. Won,et al. GEM‐3: A Monostatic Broadband Electromagnetic Induction Sensor , 1997 .

[5] Leslie M. Collins,et al. Improved signal processing approaches for land mine detection , 1998, Defense, Security, and Sensing.

[6] Y. Das,et al. Analysis of an electromagnetic induction detector for real-time location of buried objects , 1990 .

[7] Guy Demoment,et al. Image reconstruction and restoration: overview of common estimation structures and problems , 1989, IEEE Trans. Acoust. Speech Signal Process..

[8] J. Swinburne. Electromagnetic Theory , 1894, Nature.

[9] David J. Daniels,et al. Surface-Penetrating Radar , 1996 .

[10] Giorgio Franceschetti. Electromagnetics: Theory, Techniques, and Engineering Paradigms , 1997 .