RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM

RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM

The investigation of the scattering signals features on the land surface can be used to study the physics of scattering processes, as well as for the establishment of multipath compensation methods for reducing positioning errors in global navigation satellite systems. The possibility of detecting t...

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Main Authors: V. I. Lutsenko, D. O. Popov, I. V. Lutsenko
Format: Article
Language:English
Published: Akademperiodyka 2016-03-01
Series:Радиофизика и электроника
Subjects:
global navigation satellite system
interference
reflection area
underlying surface
Online Access:http://re-journal.org.ua/sites/default/files/file_attach/2016-1/7.pdf
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spelling doaj-c7cb861dfdfa48ffa758c7ad4078a4362020-11-25T02:22:46ZengAkademperiodyka Радиофизика и электроника1028-821X2415-34002016-03-012113139https://doi.org/10.15407/rej2016.01.031RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEMV. I. LutsenkoD. O. PopovI. V. LutsenkoThe investigation of the scattering signals features on the land surface can be used to study the physics of scattering processes, as well as for the establishment of multipath compensation methods for reducing positioning errors in global navigation satellite systems. The possibility of detecting the reflection areas on the underlying surface and estimating their parameters by using radiation of global navigation satellite systems is shown. The behavior of the signal levels for different satellites in urban areas is analyzed. The influence of the reflection area’s characteristics on the spectrum of the received radiations is considered; the method of determining their location is proposed.http://re-journal.org.ua/sites/default/files/file_attach/2016-1/7.pdfglobal navigation satellite systeminterferencereflection areaunderlying surface
collection DOAJ
language English
format Article
sources DOAJ
author V. I. Lutsenko
D. O. Popov
I. V. Lutsenko
spellingShingle V. I. Lutsenko
D. O. Popov
I. V. Lutsenko
RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM
Радиофизика и электроника
global navigation satellite system
interference
reflection area
underlying surface
author_facet V. I. Lutsenko
D. O. Popov
I. V. Lutsenko
author_sort V. I. Lutsenko
title RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM
title_short RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM
title_full RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM
title_fullStr RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM
title_full_unstemmed RESEARCH ON THE UNDERLYING SURFACE BY RADIATION OF GLOBAL NAVIGATION SATELLITE SYSTEM
title_sort research on the underlying surface by radiation of global navigation satellite system
publisher Akademperiodyka
series Радиофизика и электроника
issn 1028-821X
2415-3400
publishDate 2016-03-01
description The investigation of the scattering signals features on the land surface can be used to study the physics of scattering processes, as well as for the establishment of multipath compensation methods for reducing positioning errors in global navigation satellite systems. The possibility of detecting the reflection areas on the underlying surface and estimating their parameters by using radiation of global navigation satellite systems is shown. The behavior of the signal levels for different satellites in urban areas is analyzed. The influence of the reflection area’s characteristics on the spectrum of the received radiations is considered; the method of determining their location is proposed.
topic global navigation satellite system
interference
reflection area
underlying surface
url http://re-journal.org.ua/sites/default/files/file_attach/2016-1/7.pdf
work_keys_str_mv AT vilutsenko researchontheunderlyingsurfacebyradiationofglobalnavigationsatellitesystem
AT dopopov researchontheunderlyingsurfacebyradiationofglobalnavigationsatellitesystem
AT ivlutsenko researchontheunderlyingsurfacebyradiationofglobalnavigationsatellitesystem
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