Precise Point Positioning with GPS and Galileo

Vortragende/r (Mitwirkende/r)
  • Patrick Henkel
Umfang4 SWS
SemesterWintersemester 2021/22
UnterrichtsspracheEnglisch

Termine

* Termin abgesagt

Teilnahmekriterien

Lernziele

The lecture provides algorithms and methods for achieving a precise and reliable absolute position with GPS and Galileo.

Beschreibung

* Introduction to Precise Point Positioning * Traditional Precise Point Positioning with Melbourne-Wübbena and Ionosphere-Free Linear Combinations * Estimation of Satellite Position, Clock and Bias Corrections with Geodetic Networks * Cascaded Kalman Filtering * Reliable Carrier Phase Integer Ambiguity Resolution * Joint subset determination and integer least-squares estimation * Best Integer Equivariant Estimation * Precise Point Positioning with low-cost single frequency GNSS receivers * Orbital corrections * Multi-Sensor Fusion for joint PPP and Attitude determination

Lehr- und Lernmethoden

Learning methods: The exercises in the tutorials repeat the lecture's subject and, thereby, deepen the understanding. Self-study of the lecture notes and powerpoint slides is also expected. Teaching methods: The lectures include derivations at the blackboard, summaries on powerpoint slides, and short presentations in Matlab. The students are encouraged to actively participate in the lecture and tutorials by the lecturer.

Studien-, Prüfungsleistung

Optional Midterm Exam + Final Exam The students can only improve their grade in the midterm, i.e. it contributes 25 % to the final grade if the students achieve a better grade than in the final exam. Otherwise, the final exam will simply count for 100 %.

Empfohlene Literatur

Methods of Celestial Mechanics 1, G. Beutler (available at www.ub.tum.de) Methods of Celestial Mechanics 2, G. Beutler (available at www.ub.tum.de)

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