Object Identification in Radar Imaging via the Reciprocity Gap Method

Authors

Matthew Charnley, Rutgers University
Aihua W. Wood, Air Force Institute of TechnologyFollow

Document Type

Article

Publication Date

1-2020

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.
Abstract © AGU.

Comments

© Copyright 2019 by the American Geophysical Union. All rights reserved.

Permission to Deposit an Article in an Institutional Repository. https://publications.agu.org/author-resource-center/usage-permissions/ Adopted by [AGU] Council 13 December 2009. "AGU allows authors to deposit their journal articles if the version is the final published citable version of record, the AGU copyright statement is clearly visible on the posting, and the posting is made 6 months after official publication by the AGU"

Sourced from the published version of record cited below. DOI Link

DOI

10.1029/2019RS006946

Source Publication

Radio Science (ISSN 0048-6604 | e-ISSN 1944-799X)

Recommended Citation

Charnley, M., & Wood, A. (2020). Object identification in radar imaging via the reciprocity gap method. Radio Science, 55(1), e2019RS006946. https://doi.org/10.1029/2019RS006946