Investigation of EMI response for magnetically susceptible and conductive rough surfaces

2009 International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory Pub Date : 2009-10-30 DOI:10.1109/DIPED.2009.5307242

G. Ghvedashvili, D. Kakulia, F. Shubitidze

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引用次数: 2

Abstract

Electromagnetic induction (EMI) sensing has been identified as most promising technology for the detection and discrimination of subsurface metallic objects, particularly unexploded ordnances (UXO). In EMI, the sensors are detecting signals that are produced by induced and permanent magnetic polarizations. Soils, which contain small magnetic particles, called magnetically susceptible soils, can produce EMI responses and, therefore, mask or modify the object's EMI response. These soils are a major source of false positives when searching for UXO using magnetic or EMI sensors. Studies show that in adverse areas up to 30% of identified electromagnetic (EM) anomalies are attributed to geology. Therefore, to enhance UXO detection as well as discrimination in geological environments, the effects of the magnetic soils on the magnetic and EMI signal need to be studied in details. In this paper, the method of auxiliary sources (MAS) is applied to investigate the EMI response from magnetically susceptible rough surfaces.

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磁敏感和导电粗糙表面的电磁干扰响应研究

电磁感应(EMI)传感已被确定为探测和识别地下金属物体，特别是未爆弹药(UXO)最有前途的技术。在电磁干扰中，传感器检测由感应和永磁极化产生的信号。含有小磁性颗粒的土壤，称为磁敏感土壤，可以产生电磁干扰响应，因此，掩盖或修改物体的电磁干扰响应。当使用磁性或电磁干扰传感器搜索未爆炸弹药时，这些土壤是误报的主要来源。研究表明，在不利区域，高达30%的已识别电磁(EM)异常归因于地质。因此，为了提高地质环境中未爆弹药的探测和识别能力，需要详细研究磁性土壤对磁性和电磁干扰信号的影响。本文采用辅助源方法研究了磁敏感粗糙表面的电磁干扰响应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory

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