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272 Fachinstitute an Universitäten <strong>und</strong> Hochschulen<br />
Institute of Geodesy and Navigation<br />
University of the Federal Armed Forces Munich 1<br />
2003<br />
1. Personnel and Organisation<br />
1.1 Head of Institute<br />
Univ.-Prof. Dr.-Ing. GÜNTER W. HEIN<br />
Univ.-Prof. Dr.-Ing. BERND EISSFELLER (deputy director)<br />
b. Head of GNSS/INS Laboratory<br />
Dr.-Ing. TORBEN SCHÜLER<br />
c. Research Staff<br />
Dipl.-Ing. GERALD AMERES<br />
Dipl.-Ing. ROBERT BIBERGER<br />
Dipl.-Ing. LUCA BUZZELLI<br />
Dipl.-Math. BÄRBEL DEISTING<br />
Dipl.-Ing. MARKUS IRSIGLER<br />
Dipl.-Ing. ROLAND KANIUTH<br />
Dipl.-Ing. CHRISTIAN KREYE<br />
Dipl.-Ing. EVA KRUEGER<br />
Dipl.-Ing. THORSTEN LÜCK<br />
Dipl.-Ing. SUNG WOOK MOON<br />
Dr.-Ing. THOMAS PANY<br />
Dipl.-Ing. ANDREA POSFAY<br />
Dipl.-Ing. BERNHARD RIEDL<br />
Cand.Ing. DANIEL SANROMA<br />
Dipl.-Ing. ANDREAS TEUBER<br />
Dipl.-Ing. BERND ZIMMERMANN<br />
1.4 Administrative and Technical Staff<br />
PENNI GRIGAT<br />
BRUNHILD STRÜBIG<br />
ANTJE TUCCI<br />
MANFRED HÄUSLER (Technician)<br />
1.5 Guests<br />
Dipl.-Ing. XIAOKUI YUE, VR China<br />
Rong ZHI ZHANG, VR China<br />
2. Research Areas<br />
2.1 Contributions to the definition and development<br />
of the European Satellite Navigation System Galileo<br />
Within the project entitled „egleitente Untersuchungen zu<br />
Entwicklung des Satelliten Navigationssystems Galileo”<br />
the Institute of Geodesy and Navigation contributed to the<br />
development and validation phase of the European Galileo<br />
system by providing input the signal task force of the<br />
European Community (EC).<br />
The Galileo project is carried out in co-operation by bodies<br />
EC and the European Space Agency (ESA). In principle<br />
it is to be realised in three phases: project definition,<br />
development and implementation. The f<strong>und</strong>amental decision<br />
for the realization Galileo was made by the council of the<br />
European ministers of transport at March 26, 2002. According<br />
to the present planning the development and validation<br />
phase should cover the period 2002-2005, the implementation<br />
phase 2006-2007, and the operational phase could start<br />
in 2008.<br />
2.1.1 Overall Architecture<br />
The main characteristics of the Galileo system architecture<br />
can be summarised as follows<br />
– Independence of other satellite navigation systems<br />
– Interoperability with GPS (GLONASS)<br />
– Service concept (open, commercial, safety critical,<br />
regulated)<br />
– Implementation of an Integrity Service (inside/outside<br />
Europe)<br />
– Independence between Integrity Service and Galileo<br />
control System (GCS)<br />
– Global services (SAR, and referred to navigation data<br />
related services)<br />
– Global location and time dissemination on the basis of<br />
a global constellation<br />
– Regional components (Monitor and uplink stations)<br />
– Integration with regional systems (e.g. EGNOS)<br />
– Integration with local (differential etc.) systems<br />
– Compatibility with future mobile radio networks<br />
(UMTS)<br />
The main extension of Galileo compared to GPS consists<br />
in the implementation of a global / regional segment for<br />
integrity monitoring. The goal is to assist the safety critical<br />
1<br />
Inst. f. Erdmessung <strong>und</strong> Navigation, Universität der B<strong>und</strong>eswehr München, Fakultät f. Bauingenieur- <strong>und</strong> Vermessungswesen, Werner-<br />
Heisenberg-Weg 39, 85577 Neubiberg, Fax: (089) 6004 3019, Tel: (089) 6004 3425, E-mail: guenter.hein@unibw-muenchen.de