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- Title
Object Identification in Radar Imaging via the Reciprocity Gap Method.
- Authors
Charnley, Matthew; Wood, Aihua
- Abstract
In this paper, we present an experimental method for locating and identifying objects in radar imaging, specifically problems that could arise in physical situations. The data for the forward problem are generated using a discretization of the Lippmann‐Schwinger equation, and the inverse problem of object location is solved using the reciprocity gap approach to the linear sampling method. The main new development in this paper is an exploration of determining the permittivity of the object from the back‐scattered data, utilizing another discretization of the Lippmann‐Schwinger equation. Key Points: Use of Lippmann‐Schwinger equation and reciprocity gap approach for near‐field object detectionPermittivity identification using the Lippmann‐Schwinger equation
- Subjects
DISCRETIZATION methods; LIPPMANN process; SCHWINGER'S variational approach; PERMITTIVITY measurement; INVERSE scattering transform
- Publication
Radio Science, 2020, Vol 55, Issue 1, pN.PAG
- ISSN
0048-6604
- Publication type
Article
- DOI
10.1029/2019RS006946