Microwave Subsurface Imaging: Methodologies and Applications

2019 URSI Asia-Pacific Radio Science Conference (AP-RASC) Pub Date : 2019-03-01 DOI:10.23919/URSIAP-RASC.2019.8738221

M. Akhtar, Greeshmaja Govind, Z. Akhter

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Abstract

Over the years, microwave subsurface imaging has gained widespread attention in many fields such as concealed weapon detection at security checkpoints, landmine detection, biomedical imaging, structural health monitoring, quality inspection of composite structures etc. The strategy of microwave imaging is to illuminate the object under investigation using a known electromagnetic source, and from the reflection and transmission parameters received in response, information regarding the electromagnetic signature of the target is derived using suitable inverse process. Of the various measurement techniques available, the criteria for selecting a particular scheme for microwave imaging would be primarily based on factors such as the ease of imaging, frequency of operation, imaging accuracy etc. In recent years, real-time imaging of objects has garnered interest where the imaging scheme does not involve complex iterative inverse solutions or time-consuming calibration procedures [1]. Accordingly, the focus has been shifted from theoretical studies to the development of sophisticated practical arrangements where one can acquire information about objects in real time.

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微波地下成像:方法和应用

多年来，微波地下成像技术在安检隐蔽武器探测、地雷探测、生物医学成像、结构健康监测、复合结构质量检测等领域得到了广泛关注。微波成像的策略是利用已知的电磁源照射被测目标，并根据接收到的反射和透射参数，采用适当的逆处理，得到目标的电磁特征信息。在现有的各种测量技术中，选择一种微波成像方案的标准主要是基于成像的容易程度、操作频率、成像精度等因素。近年来，物体的实时成像引起了人们的兴趣，因为成像方案不涉及复杂的迭代反解或耗时的校准过程[1]。因此，重点已经从理论研究转移到复杂的实际安排的发展，人们可以实时获取有关物体的信息。

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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2019 URSI Asia-Pacific Radio Science Conference (AP-RASC)

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