While commercial GPS receivers are able to track objects moving at
low velocities (hundreds of kilometres per hour), military applications
require special adjustments that allow the tracking system to localize
objects moving at high velocities (few kilometres per second) called
High Dynamics applications. GALILEO, which represents the European
initiative in the field of GNSS (Global Navigation Satellite Systems)
is conceived as a civil system. Nonetheless, it is possible imagine
that possible improper military applications may be devised. A project
is being developed by Politecnico di Torino concerning the study
of the characteristics of a GAILLEO receiver, compatible with high
dynamics (HD) scenarios and especially conceived for working in a
space environment, its pros and cons with respect to the GPS signaljn
order to develop a cheap system of localization for micro, nano and
pico satellites in LEO orbit.
%0 Journal Article
%1 Antonietti2005
%A Antonietti, N.
%A Feletti, L. C.
%A Pagana, G.
%D 2005
%J Proc. of the 2nd IEEE International Symposium on Wireless Communication
Systems (ISWCS)
%K GPS, highDynamic, multipleFrequency
%P 847-851
%R 10.1109/ISWCS.2005.1547830
%T The PICPOT project: GPS and GALILEO in High Dynamic Scenario.
%X While commercial GPS receivers are able to track objects moving at
low velocities (hundreds of kilometres per hour), military applications
require special adjustments that allow the tracking system to localize
objects moving at high velocities (few kilometres per second) called
High Dynamics applications. GALILEO, which represents the European
initiative in the field of GNSS (Global Navigation Satellite Systems)
is conceived as a civil system. Nonetheless, it is possible imagine
that possible improper military applications may be devised. A project
is being developed by Politecnico di Torino concerning the study
of the characteristics of a GAILLEO receiver, compatible with high
dynamics (HD) scenarios and especially conceived for working in a
space environment, its pros and cons with respect to the GPS signaljn
order to develop a cheap system of localization for micro, nano and
pico satellites in LEO orbit.
@article{Antonietti2005,
abstract = {While commercial GPS receivers are able to track objects moving at
low velocities (hundreds of kilometres per hour), military applications
require special adjustments that allow the tracking system to localize
objects moving at high velocities (few kilometres per second) called
High Dynamics applications. GALILEO, which represents the European
initiative in the field of GNSS (Global Navigation Satellite Systems)
is conceived as a civil system. Nonetheless, it is possible imagine
that possible improper military applications may be devised. A project
is being developed by Politecnico di Torino concerning the study
of the characteristics of a GAILLEO receiver, compatible with high
dynamics (HD) scenarios and especially conceived for working in a
space environment, its pros and cons with respect to the GPS signaljn
order to develop a cheap system of localization for micro, nano and
pico satellites in LEO orbit.},
added-at = {2011-05-30T10:41:10.000+0200},
author = {Antonietti, N. and Feletti, L. C. and Pagana, G.},
biburl = {https://www.bibsonomy.org/bibtex/2eb116c4fe9808dafe4b9b95666d5c898/bmuth},
doi = {10.1109/ISWCS.2005.1547830},
groups = {private},
interhash = {b3d068a911a9bb9f3dad516728435662},
intrahash = {eb116c4fe9808dafe4b9b95666d5c898},
journal = {Proc. of the 2nd IEEE International Symposium on Wireless Communication
Systems (ISWCS)},
keywords = {GPS, highDynamic, multipleFrequency},
owner = {bmuth},
pages = {847-851},
timestamp = {2014-08-11T22:37:44.000+0200},
title = {{The PICPOT project: GPS and GALILEO in High Dynamic Scenario.}},
username = {bmuth},
year = 2005
}