- Introduction to radio based determination of position, time and velocity
- Position and velocity estimation
- Satellite constellations and orbits
- Signals (modulation and coding) and navigation services (GPS and Galileo)
- Signal acquisition and tracking
- Discriminators for delay, frequency and phase as well as associated control loops and their implementation
- Propagation errors and their mitigation: multipath, ionospheric effects, tropospheric effects, interference
- Accuracy of position and time estimation
- Reference systems for position and time
- Relativistic corrections
- fundamental modeling techniques and solution methods in the field of satellite navigation as well as other supporting means of navigation.
- They gain an overview and understanding of relevant technologies in the field of satellite navigation.
- They develop the capability to analyze and dimension satellite navigation systems.
- They gain an insight in actual and planned systems of satellite navigation as well as in still open questions in this field of research.
More information about the lecture can be found here.