Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar

Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar

The increasing interest in the radar detection of low-elevation and small-size targets in complicated ground environments (such as urban, suburban, and mixed country areas) calls for a precise quantification of the radar detection capabilities in those areas. Hence, a set of procedures is devised an...

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Bibliographic Details
Main Authors: Gaspare Galati, Gabriele Pavan, Christoph Wasserzier
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Sensors
Subjects:
radar cross-sections
multipath
radar calibration
Online Access:https://www.mdpi.com/1424-8220/20/2/463
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spelling doaj-071ee0c13b4045a29cff635889df038f2020-11-25T00:35:16ZengMDPI AGSensors1424-82202020-01-0120246310.3390/s20020463s20020463Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial RadarGaspare Galati0Gabriele Pavan1Christoph Wasserzier2Department of Electronic Engineering, Tor Vergata University of Rome and CNIT—National Inter-University Consortium for Telecommunications, RU of Rome, via del Politecnico 1, 00133 Rome, ItalyDepartment of Electronic Engineering, Tor Vergata University of Rome and CNIT—National Inter-University Consortium for Telecommunications, RU of Rome, via del Politecnico 1, 00133 Rome, ItalyFraunhofer Institute for High Frequency Physics and Radar Techniques FHR, Fraunhoferstrasse 20, 53343 Wachtberg, GermanyThe increasing interest in the radar detection of low-elevation and small-size targets in complicated ground environments (such as urban, suburban, and mixed country areas) calls for a precise quantification of the radar detection capabilities in those areas. Hence, a set of procedures is devised and tested, both theoretically and experimentally, using a commercial X-band radar, to (i) calibrate the radar sensor (with an online evaluation of its losses) using standard scatterers, (ii) measure the multipath effect and compensate for it, and (iii) create “true radar cross section” maps of the area of interest for both point and distributed clutter. The above methods and the related field results are aimed at future qualification procedures and practical usage of small, cheap, and easily moveable radars for the detection of low-observable air targets, such as unmanned air vehicles/systems (UAV/UAS), in difficult ground areas. A significant set of experimental results as discussed in the paper confirms the great relevance of multipath in ground-based radar detection, with the need for correcting measures.https://www.mdpi.com/1424-8220/20/2/463radar cross-sectionsmultipathradar calibration
collection DOAJ
language English
format Article
sources DOAJ
author Gaspare Galati
Gabriele Pavan
Christoph Wasserzier
spellingShingle Gaspare Galati
Gabriele Pavan
Christoph Wasserzier
Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar
Sensors
radar cross-sections
multipath
radar calibration
author_facet Gaspare Galati
Gabriele Pavan
Christoph Wasserzier
author_sort Gaspare Galati
title Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar
title_short Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar
title_full Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar
title_fullStr Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar
title_full_unstemmed Characterization of Back-Scattering and Multipath in a Suburban Area after the Calibration of an X-Band Commercial Radar
title_sort characterization of back-scattering and multipath in a suburban area after the calibration of an x-band commercial radar
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2020-01-01
description The increasing interest in the radar detection of low-elevation and small-size targets in complicated ground environments (such as urban, suburban, and mixed country areas) calls for a precise quantification of the radar detection capabilities in those areas. Hence, a set of procedures is devised and tested, both theoretically and experimentally, using a commercial X-band radar, to (i) calibrate the radar sensor (with an online evaluation of its losses) using standard scatterers, (ii) measure the multipath effect and compensate for it, and (iii) create “true radar cross section” maps of the area of interest for both point and distributed clutter. The above methods and the related field results are aimed at future qualification procedures and practical usage of small, cheap, and easily moveable radars for the detection of low-observable air targets, such as unmanned air vehicles/systems (UAV/UAS), in difficult ground areas. A significant set of experimental results as discussed in the paper confirms the great relevance of multipath in ground-based radar detection, with the need for correcting measures.
topic radar cross-sections
multipath
radar calibration
url https://www.mdpi.com/1424-8220/20/2/463
work_keys_str_mv AT gasparegalati characterizationofbackscatteringandmultipathinasuburbanareaafterthecalibrationofanxbandcommercialradar
AT gabrielepavan characterizationofbackscatteringandmultipathinasuburbanareaafterthecalibrationofanxbandcommercialradar
AT christophwasserzier characterizationofbackscatteringandmultipathinasuburbanareaafterthecalibrationofanxbandcommercialradar
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