Detail publikace
Radar Imaging of Impenetrable and Penetrable Targets From Finite-Duration Pulsed Signatures
ŠTUMPF, M.
Originální název
Radar Imaging of Impenetrable and Penetrable Targets From Finite-Duration Pulsed Signatures
Anglický název
Radar Imaging of Impenetrable and Penetrable Targets From Finite-Duration Pulsed Signatures
Jazyk
en
Originální abstrakt
A straightforward time-domain imaging technique for shape reconstruction of both impenetrable and penetrable objects is described. For a class of finite-duration incident waveforms, the ramp cross-sectional area function is recovered from the radar signature of a target through the stable integration procedure. The results presented in this paper can be readily applied to identification of targets from their radar signatures directly in time domain. A number of illustrative examples is presented.
Anglický abstrakt
A straightforward time-domain imaging technique for shape reconstruction of both impenetrable and penetrable objects is described. For a class of finite-duration incident waveforms, the ramp cross-sectional area function is recovered from the radar signature of a target through the stable integration procedure. The results presented in this paper can be readily applied to identification of targets from their radar signatures directly in time domain. A number of illustrative examples is presented.
Dokumenty
BibTex
@article{BUT107740,
author="Martin {Štumpf}",
title="Radar Imaging of Impenetrable and Penetrable Targets From Finite-Duration Pulsed Signatures",
annote="A straightforward time-domain imaging technique for shape reconstruction of both impenetrable and penetrable objects is described. For a class of finite-duration incident waveforms, the ramp cross-sectional area function is recovered from the radar signature of a target through the stable integration procedure. The results presented in this paper can be readily applied to identification of targets from their radar signatures directly in time domain. A number of illustrative examples is presented.",
address="IEEE Press",
chapter="107740",
doi="10.1109/TAP.2014.2309964",
institution="IEEE Press",
number="6",
volume="62",
year="2014",
month="june",
pages="3035--3042",
publisher="IEEE Press",
type="journal article in Web of Science"
}