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Direction finding using a linear three‐element interferometer approach

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Zeitschriftentitel: Radio Science
Personen und Körperschaften: Webster, A. R., Jones, J., Ellis, K. J.
In: Radio Science, 37, 2002, 6
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Geophysical Union (AGU)
Schlagwörter:
Electrical and Electronic Engineering
General Earth and Planetary Sciences
Condensed Matter Physics
author_facet Webster, A. R.
Jones, J.
Ellis, K. J.
Webster, A. R.
Jones, J.
Ellis, K. J.
author Webster, A. R.
Jones, J.
Ellis, K. J.
spellingShingle Webster, A. R.
Jones, J.
Ellis, K. J.
Radio Science
Direction finding using a linear three‐element interferometer approach
Electrical and Electronic Engineering
General Earth and Planetary Sciences
Condensed Matter Physics
author_sort webster, a. r.
spelling Webster, A. R. Jones, J. Ellis, K. J. 0048-6604 1944-799X American Geophysical Union (AGU) Electrical and Electronic Engineering General Earth and Planetary Sciences Condensed Matter Physics http://dx.doi.org/10.1029/2001rs002511 <jats:p>Results are presented from the operation of a system employing a linear three‐element antenna array to determine the angle of arrival of a radio signal in a low‐angle terrestrial situation. Based on a system successfully employed in determining the direction in space of meteor echoes at elevated angles, accurate direction determination was obtained in three widely varied terrestrial environments. While such a system would be susceptible to strong multipath signals, and therefore unsuitable for congested cellular environments, there are applications, for example emergency beacon location, in which this does not present a significant problem.</jats:p> Direction finding using a linear three‐element interferometer approach Radio Science
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title Direction finding using a linear three‐element interferometer approach
title_unstemmed Direction finding using a linear three‐element interferometer approach
title_full Direction finding using a linear three‐element interferometer approach
title_fullStr Direction finding using a linear three‐element interferometer approach
title_full_unstemmed Direction finding using a linear three‐element interferometer approach
title_short Direction finding using a linear three‐element interferometer approach
title_sort direction finding using a linear three‐element interferometer approach
topic Electrical and Electronic Engineering
General Earth and Planetary Sciences
Condensed Matter Physics
url http://dx.doi.org/10.1029/2001rs002511
publishDate 2002
physical
description <jats:p>Results are presented from the operation of a system employing a linear three‐element antenna array to determine the angle of arrival of a radio signal in a low‐angle terrestrial situation. Based on a system successfully employed in determining the direction in space of meteor echoes at elevated angles, accurate direction determination was obtained in three widely varied terrestrial environments. While such a system would be susceptible to strong multipath signals, and therefore unsuitable for congested cellular environments, there are applications, for example emergency beacon location, in which this does not present a significant problem.</jats:p>
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author Webster, A. R., Jones, J., Ellis, K. J.
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description <jats:p>Results are presented from the operation of a system employing a linear three‐element antenna array to determine the angle of arrival of a radio signal in a low‐angle terrestrial situation. Based on a system successfully employed in determining the direction in space of meteor echoes at elevated angles, accurate direction determination was obtained in three widely varied terrestrial environments. While such a system would be susceptible to strong multipath signals, and therefore unsuitable for congested cellular environments, there are applications, for example emergency beacon location, in which this does not present a significant problem.</jats:p>
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spelling Webster, A. R. Jones, J. Ellis, K. J. 0048-6604 1944-799X American Geophysical Union (AGU) Electrical and Electronic Engineering General Earth and Planetary Sciences Condensed Matter Physics http://dx.doi.org/10.1029/2001rs002511 <jats:p>Results are presented from the operation of a system employing a linear three‐element antenna array to determine the angle of arrival of a radio signal in a low‐angle terrestrial situation. Based on a system successfully employed in determining the direction in space of meteor echoes at elevated angles, accurate direction determination was obtained in three widely varied terrestrial environments. While such a system would be susceptible to strong multipath signals, and therefore unsuitable for congested cellular environments, there are applications, for example emergency beacon location, in which this does not present a significant problem.</jats:p> Direction finding using a linear three‐element interferometer approach Radio Science
spellingShingle Webster, A. R., Jones, J., Ellis, K. J., Radio Science, Direction finding using a linear three‐element interferometer approach, Electrical and Electronic Engineering, General Earth and Planetary Sciences, Condensed Matter Physics
title Direction finding using a linear three‐element interferometer approach
title_full Direction finding using a linear three‐element interferometer approach
title_fullStr Direction finding using a linear three‐element interferometer approach
title_full_unstemmed Direction finding using a linear three‐element interferometer approach
title_short Direction finding using a linear three‐element interferometer approach
title_sort direction finding using a linear three‐element interferometer approach
title_unstemmed Direction finding using a linear three‐element interferometer approach
topic Electrical and Electronic Engineering, General Earth and Planetary Sciences, Condensed Matter Physics
url http://dx.doi.org/10.1029/2001rs002511