Development and application of radar reflectometer using micro to infrared waves

Development and application of radar reflectometer using micro to infrared waves

Progress in microwave and millimeter-wave technologies has made possible advanced diagnostics for application to various fields, including radio astronomy, alien substance detection, plasma diagnostics, airborne and space-borne imaging radars called as synthetic aperture radars, and living body meas...

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Main Authors: A. Mase, Y. Kogi, D. Kuwahara, Y. Nagayama, N. Ito, T. Maruyama, H. Ikezi, X. Wang, M. Inutake, T. Tokuzawa, J. Kohagura, M. Yoshikawa, S. Shinohara, A. Suzuki, F. Sakai, M. Yamashika, B. J. Tobias, C. Muscatello, X. Ren, M. Chen, C. W. Domier, N. C. Luhmann
Format: Article
Language:English
Published: Taylor & Francis Group 2018-01-01
Series:Advances in Physics: X
Subjects:
Electromagnetic waves
radar reflectometry
imaging
plasma
biomedical measurement
remote sensing
Online Access:http://dx.doi.org/10.1080/23746149.2018.1472529
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spelling doaj-8bbe73f5d2734a41a19e845a434cf74d2020-11-25T02:34:21ZengTaylor & Francis GroupAdvances in Physics: X2374-61492018-01-013110.1080/23746149.2018.14725291472529Development and application of radar reflectometer using micro to infrared wavesA. Mase0Y. Kogi1D. Kuwahara2Y. Nagayama3N. Ito4T. Maruyama5H. Ikezi6X. Wang7M. Inutake8T. Tokuzawa9J. Kohagura10M. Yoshikawa11S. Shinohara12A. SuzukiF. Sakai13M. Yamashika14B. J. Tobias15C. Muscatello16X. Ren17M. Chen18C. W. Domier19N. C. Luhmann20Kyushu UniversityFukuoka Institute of TechnologyTokyo University of Agriculture and TechnologyNational Institute for Fusion ScienceNational Institute of Technology, Ube CollegeKyushu UniversityKyushu UniversityCollege of Electronic Science and Engineering, Jilin UniversityResearch Institute of Electrical Communication, Tohoku UniversityNational Institute for Fusion ScienceUniversity of TsukubaUniversity of TsukubaTokyo University of Agriculture and TechnologySakura Tech Co.Subaru Co.Los Alamos National LaboratoryGeneral AtomicsUniversity of CaliforniaUniversity of CaliforniaUniversity of CaliforniaUniversity of CaliforniaProgress in microwave and millimeter-wave technologies has made possible advanced diagnostics for application to various fields, including radio astronomy, alien substance detection, plasma diagnostics, airborne and space-borne imaging radars called as synthetic aperture radars, and living body measurements. Transmission, reflection, scattering, and radiation processes of electromagnetic waves are utilized as diagnostic principles. The diagnostics are classified as active and passive systems. Specifically, active radar reflectometry has become of importance in various applications due to the possibility of high localization and accessibility of the measurements as well as the non-invasive nature of the systems. In this paper, recent development and application of radar reflectometers are described. The key words are profile reflectometry, fluctuation reflectometry, imaging radar (optics imaging and synthetic aperture imaging), and radio-optics fusion technology in order to improve the spatial resolution.http://dx.doi.org/10.1080/23746149.2018.1472529Electromagnetic wavesradar reflectometryimagingplasmabiomedical measurementremote sensing
collection DOAJ
language English
format Article
sources DOAJ
author A. Mase
Y. Kogi
D. Kuwahara
Y. Nagayama
N. Ito
T. Maruyama
H. Ikezi
X. Wang
M. Inutake
T. Tokuzawa
J. Kohagura
M. Yoshikawa
S. Shinohara
A. Suzuki
F. Sakai
M. Yamashika
B. J. Tobias
C. Muscatello
X. Ren
M. Chen
C. W. Domier
N. C. Luhmann
spellingShingle A. Mase
Y. Kogi
D. Kuwahara
Y. Nagayama
N. Ito
T. Maruyama
H. Ikezi
X. Wang
M. Inutake
T. Tokuzawa
J. Kohagura
M. Yoshikawa
S. Shinohara
A. Suzuki
F. Sakai
M. Yamashika
B. J. Tobias
C. Muscatello
X. Ren
M. Chen
C. W. Domier
N. C. Luhmann
Development and application of radar reflectometer using micro to infrared waves
Advances in Physics: X
Electromagnetic waves
radar reflectometry
imaging
plasma
biomedical measurement
remote sensing
author_facet A. Mase
Y. Kogi
D. Kuwahara
Y. Nagayama
N. Ito
T. Maruyama
H. Ikezi
X. Wang
M. Inutake
T. Tokuzawa
J. Kohagura
M. Yoshikawa
S. Shinohara
A. Suzuki
F. Sakai
M. Yamashika
B. J. Tobias
C. Muscatello
X. Ren
M. Chen
C. W. Domier
N. C. Luhmann
author_sort A. Mase
title Development and application of radar reflectometer using micro to infrared waves
title_short Development and application of radar reflectometer using micro to infrared waves
title_full Development and application of radar reflectometer using micro to infrared waves
title_fullStr Development and application of radar reflectometer using micro to infrared waves
title_full_unstemmed Development and application of radar reflectometer using micro to infrared waves
title_sort development and application of radar reflectometer using micro to infrared waves
publisher Taylor & Francis Group
series Advances in Physics: X
issn 2374-6149
publishDate 2018-01-01
description Progress in microwave and millimeter-wave technologies has made possible advanced diagnostics for application to various fields, including radio astronomy, alien substance detection, plasma diagnostics, airborne and space-borne imaging radars called as synthetic aperture radars, and living body measurements. Transmission, reflection, scattering, and radiation processes of electromagnetic waves are utilized as diagnostic principles. The diagnostics are classified as active and passive systems. Specifically, active radar reflectometry has become of importance in various applications due to the possibility of high localization and accessibility of the measurements as well as the non-invasive nature of the systems. In this paper, recent development and application of radar reflectometers are described. The key words are profile reflectometry, fluctuation reflectometry, imaging radar (optics imaging and synthetic aperture imaging), and radio-optics fusion technology in order to improve the spatial resolution.
topic Electromagnetic waves
radar reflectometry
imaging
plasma
biomedical measurement
remote sensing
url http://dx.doi.org/10.1080/23746149.2018.1472529
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