This course combines the knowledge on parameter estimation, mechanics, geodetic engineering, and navigation. Geodetic methods of positioning will be generalised in order to yield methods allowing the positioning of moving targets and moving measurement platforms. Applications are found in navigation, robotics, deformation monitoring or in measurement vehicle technology

No description available.

Consolidation of knowledge in satellite geodesy and its application to GNSS.

Consolitation of knowledge in satellitegeodesy and its application to GPS.

Fundamentals and theory of geodetic reference systems and frames. Introduction to current international systems as well as to systems for the Swiss national geodetic survey.

This course supplements the knowledge on parameter estimation with enhanced mathematical and statistical methods. It is applied to examples from geodesy and geomatics.

This course supplements the knowledge on parameter estimation with enhanced mathematical and statistical metheds. It is applied to examples from geodesy and geomatics.

Consolidation of knowledge in physical geodesy and its application to the gravity field determination.

This course imparts the basics and principles of methods and systems in air, sea, and land navigation.

Introduction to the concepts and basics of navigation related systems on land, air, sea and space

Course on mathematical foundations of navigation and basic solutions of navigational problems.

Mathematical foundations of navigation, basic solutions for navigational problems.

This course imparts the basics and principles of methods and systems in air, sea, and land navigation.

No description available.

Satellitengeodäsie: Einsatz von GPS in der Geodäsie und Navigation. Bestimmung von Deformationsfeldern. Fahrzeugnavigation. Anwendungen in der Verkehrstelematik.Physikalische Geodäsie:Gravimetrische Sensortechnik, Schweregrundnetz und Landesvermessung, Gravimetrische Interpretationstechniken, Bestimmung der Gravitationskonstanten

This course gives a general idea of different basic aspects of satellite missions. Physical constraints on mission design are discussed and mission parameters are defined adequate to the mission in view. Theory will be exercised on student's own mission examples.

Satellitengeodäsie: Einsatz von GPS in der Geodäsie und Navigation. Bestimmung von Deformationsfeldern. Fahrzeugnavigation. Anwendungen in der Verkehrstelematik.Physikalische Geodäsie:Gravimetrische Sensortechnik, Schweregrundnetz und Landesvermessung, Gravimetrische Interpretationstechniken, Bestimmung der Gravitationskonstanten