2012
DOI: 10.1029/2010rs004632
|View full text |Cite
|
Sign up to set email alerts
|

A large 3D target with small inner details: A difficult cocktail for imaging purposes without a priori knowledge on the scatterers geometry

Abstract: [1] To accurately image a complex shape but large 3D target whose scattered field has been measured in an anechoic environment at high frequencies (18 and 20 GHz), we have developed a complete imaging process, combining experimental and numerical works. The adopted strategy exploits the maximum of available information related to the measurements, both in terms of quantity and accuracy without any a priori knowledge on the scatterer geometry. We first determine the position and then the dimension of the spatia… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
4
1

Citation Types

0
11
0

Year Published

2014
2014
2021
2021

Publication Types

Select...
7

Relationship

3
4

Authors

Journals

citations
Cited by 12 publications
(11 citation statements)
references
References 41 publications
0
11
0
Order By: Relevance
“…In this framework, new inversion strategies, ranging from radar-based approaches to inverse-scattering-based tomographic imaging methods, are continuously proposed in order to extend the diagnostic capabilities and to mitigate the drawbacks of existing techniques [Eyraud et al, 2012;Wang et al, 2013;Elbir and Tuncer, 2014;Jacobson et al, 2014;Kalkan and Baykal, 2014]. In the previous years, several advancements in imaging methods, especially for free-space configurations, have been reported in the scientific literature [Harding and Milla, 2013;Song and Liu, 2005;Micolau and Saillard, 2003;Solimene et al, 2013;Mohanna et al, 2013;Meschino et al, 2013;Zhang et al, 2011;Scapaticci et al, 2012;Poli et al, 2013;Agarwal et al, 2013;Heilpern et al, 2013;Gurbuz et al, 2014;Dagefu and Sarabandi, 2014;Laviada et al, 2014].…”
Section: Introductionmentioning
confidence: 99%
“…In this framework, new inversion strategies, ranging from radar-based approaches to inverse-scattering-based tomographic imaging methods, are continuously proposed in order to extend the diagnostic capabilities and to mitigate the drawbacks of existing techniques [Eyraud et al, 2012;Wang et al, 2013;Elbir and Tuncer, 2014;Jacobson et al, 2014;Kalkan and Baykal, 2014]. In the previous years, several advancements in imaging methods, especially for free-space configurations, have been reported in the scientific literature [Harding and Milla, 2013;Song and Liu, 2005;Micolau and Saillard, 2003;Solimene et al, 2013;Mohanna et al, 2013;Meschino et al, 2013;Zhang et al, 2011;Scapaticci et al, 2012;Poli et al, 2013;Agarwal et al, 2013;Heilpern et al, 2013;Gurbuz et al, 2014;Dagefu and Sarabandi, 2014;Laviada et al, 2014].…”
Section: Introductionmentioning
confidence: 99%
“…In this letter, the investigation zone is limited to the center of the spherical setup, but its position and size can directly be deduced from the measurements [8]. An iterative scheme is adopted to solve this inverse scattering problem.…”
Section: Inversion Proceduresmentioning
confidence: 99%
“…To test the efficiency of our experimental [5], [7] and numerical developments [8] in a borderline case, we have selected a component that every microwave experimenter has been working with: the extremity of a microwave absorbing pyramid. With this target, we face major difficulties: it is a low scattering target, large with respect to the wavelength, eventually heterogeneous and with a finite loss tangent worth to be accurately determined.…”
Section: Introductionmentioning
confidence: 99%
“…Some of the common microwave imaging applications reported in the past by the researchers are nondestructive testing [Akhtar, 2008;Kharkovsky and Zoughi, 2007], crack and moisture detection in concrete walls [Ghasr et al, 2006], reconstruction of permittivity profiles [Akhtar and Omar, 2000], cancer/tumor detection [Mehta et al, 2006], near-field tomography technique [Hossain and Mohan, 2015], and the far-field radar imaging techniques in wireless communications [Viani et al, 2011;Fouda et al, 2012;Wang et al, 2013]. Microwave imaging applications at high frequencies are also discussed where brightness temperature measurement is done at ocean surface [Bettenhausen and Adams, 2013] and the detection of 3-D targets using Bayesian formulation [Eyraud et al, 2012]. In addition, there are a number of other potential applications of microwave imaging which have not yet been fully explored.…”
Section: Introductionmentioning
confidence: 99%