This blog is dedicated to the developement of a Galileo Software defined receiver.
Starting with the GPS SDR suite available in the book "A software defined GPS and Galileo Receiver : a single frequency approach (Applied and Numerical Harmonic Analysis)"
http://www.springer.com/birkhauser/engineering/book/978-0-8176-4390-4
I'm currently developping a software suite in Matlab that can acquire and track Galileo signals. Using a GNSS front-end developped by the Franuhofer Institute for sampling the signal received by a tri-frequency antenna, the software process the binary file generated by this front-end.
http://www.iis.fraunhofer.de/content/dam/iis/en/dokumente/Positioning-and-Navigation/LOS_triband_2010.pdf
The Matlab suite currently running for the Galileo E1BC signal acquisition, it was developped using the provided signals ICD :
http://ec.europa.eu/enterprise/policies/satnav/galileo/open-service/index_en.htm
http://www.springer.com/birkhauser/engineering/book/978-0-8176-4390-4
I'm currently developping a software suite in Matlab that can acquire and track Galileo signals. Using a GNSS front-end developped by the Franuhofer Institute for sampling the signal received by a tri-frequency antenna, the software process the binary file generated by this front-end.
http://www.iis.fraunhofer.de/content/dam/iis/en/dokumente/Positioning-and-Navigation/LOS_triband_2010.pdf
The Matlab suite currently running for the Galileo E1BC signal acquisition, it was developped using the provided signals ICD :
http://ec.europa.eu/enterprise/policies/satnav/galileo/open-service/index_en.htm
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