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REVISED
tutorial!
8:30
- 12:00, Tuesday, String 7
740A:
Galileo I
Development and Design
of the European GNSS
Register
for this tutorial ~ Back to main tutorials page |
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Europe is developing
its own global satellite navigation and positioning system, called
Galileo. This half-day course informs attendees about the state-of-the-art
of the design and the development of GALILEO, it outlines the overall
architecture, the frequency and signal plan and presents the navigation
and timing performance. |
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Mr. Marco Falcone
ESA ESTEC |
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Galileo Overall Architecture
Galileo services and performance
High-level architecture
Space segment
Ground segment and satellites; navigation and integrity
Search and rescue mission elements
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Prof.
Dr. Gόnter W. Hein
University FAF Munich |
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Galileo Signal-In-Space Definition and GPS Interoperability
Requirements, security considerations and issues
Galileo frequencies, signals, codes and data message
GPS interoperability and interference
The new Galileo L1 OS / GPS L1C optimized signal |
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Mr. Marco Falcone
ESA ESTEC |
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Galileo Development and Validation
Development and validation
approach
Galileo system test bed
GIOVE-A mission
In-orbit validation |
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Please
Note:
This session is designed to be taken in
conjunction with 740B, which follows it, and may not stand alone
comprehensively without that additional material.
Level:
Familiarity with GPS and DGPS is assumed. |
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REVISED
tutorial!
1:30
- 5:00, Tuesday, String 7
740B:
Galileo II
Development and Design
of the European GNSS
Register
for this tutorial ~ Back to main tutorials page |
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This half-day
informs attendees in detail about the Galileo integrity concept, receiver
technology developments for Galileo and verification activities until now. |
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Dr. Jφrg
Hahn
ESA ESTEC |
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Galileo Navigation and Timing Performance
Fundamentals of orbit and clock
estimation
Performance drivers for the ground network design
System specifications for time-keeping
Precision Timing Facility and the Time Service Provider
Performance budget and experimental result |
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Dr. Jφrg
Hahn
ESA ESTEC |
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Galileo Integrity Concept and Performance
Core tasks of the Galileo integrity concept
Ground mission segment integrity drivers
Monitoring feared events
Experimental results and performance figures
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Prof.
Dr. Bernd Eissfeller
University FAF Munich |
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Galileo Receiver Design and Performance
Galileo receiver requirements
Galileo receiver architecture
Signal acquisition and tracking, navigation data decoding
Receiver performance
Overview of early developments |
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Please
Note:
This session is designed to be taken in
conjunction with 740A, which precedes it, and may not stand alone
comprehensively without that additional material.
Level:
Knowledge of the overall design of Galileo (Course 740A) is assumed. |
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