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On this page you will find all GNSS Applications belonging to the Space Applications category related articles on Navipedia.
On this page you will find all GNSS Applications belonging to the Space Applications category related articles on Navipedia.


GNSS systems were originally designed for earth-based positioning and navigation. Despite this, real-time spacecraft navigation based on spaceborne GNSS receivers is becoming a common technique for low-Earth orbits and geostationary orbits, allowing satellites to self-determine their position using GNSS, reducing dependence on ground-based stations<ref>[http://www.esa.int/esaNA/SEM6OTLVGJE_index_0.html Innovative satellite navigation receivers for space applications], ESA Portal, February 16th 2006</ref>.
GNSS systems were originally designed for earth-based positioning and navigation. Despite this, real-time spacecraft navigation based on spaceborne GNSS receivers is becoming a common technique for low-Earth orbits and geostationary orbits, allowing satellites to self-determine their position using GNSS, reducing dependence on ground-based stations.


The space community started experimenting with spaceborne receivers very early in the deployment of the GPS network.The first spaceborne GNSS receiver was deployed in Landsat 4 in July 16<sup>th</sup> 1982. The GPSPAC receiver deployed with Landsat 4 was also deployed with Landsat 5 and 2 other US Department of Defense missions and despite the few number of GPS satellites deployed (at that time only 6 Block I satellites were deployed), the GPSPAC was able to demonstrate the feasibility of using GNSS for space navigation<ref>[http://www.eoportal.org/directory/pres_Landsat4and5.html Landsat-4 and -5], eoPortal </ref>.
The space community started experimenting with spaceborne receivers very early in the deployment of the GPS network.The first spaceborne GNSS receiver was deployed in Landsat 4 in July 16<sup>th</sup> 1982. The GPSPAC receiver deployed with Landsat 4 was also deployed with Landsat 5 and 2 other US Department of Defense missions and despite the few number of GPS satellites deployed (at that time only 6 Block I satellites were deployed), the GPSPAC was able to demonstrate the feasibility of using GNSS for space navigation.


The full introductory article can be read [[Space Applications|here]].
The full introductory article can be read [[Space Applications|here]].

Latest revision as of 00:43, 9 September 2011

Description

On this page you will find all GNSS Applications belonging to the Space Applications category related articles on Navipedia.

GNSS systems were originally designed for earth-based positioning and navigation. Despite this, real-time spacecraft navigation based on spaceborne GNSS receivers is becoming a common technique for low-Earth orbits and geostationary orbits, allowing satellites to self-determine their position using GNSS, reducing dependence on ground-based stations.

The space community started experimenting with spaceborne receivers very early in the deployment of the GPS network.The first spaceborne GNSS receiver was deployed in Landsat 4 in July 16th 1982. The GPSPAC receiver deployed with Landsat 4 was also deployed with Landsat 5 and 2 other US Department of Defense missions and despite the few number of GPS satellites deployed (at that time only 6 Block I satellites were deployed), the GPSPAC was able to demonstrate the feasibility of using GNSS for space navigation.

The full introductory article can be read here.

Applications.png

Pages in category "Space Applications"

The following 4 pages are in this category, out of 4 total.