GPS, Global Navigation Satellite Systems
7.5 ECTS creditsThe course presents basic theories of the functions of Global Navigation Satellite Systems (GNSS, e.g. GPS), such as signal types, codes, carrier wave measurement, satellite configuration requirements, and atmospheric impact. Central components are project planning, choosing appropriate methods and instruments of measurement, measurement strategies, satellite signal analysis, satellite status, and atmospheric conditions.
Students carry out measurements in the field using techniques such as static measurement, real time measurement with carrier waves (RTK), code measurement, and the differential method. Measurement data are calculated using baseline processing, session adjustment, network adjustment, and transformation to principal coordinate systems.
Students also learn other applications, for example, the collection of measurement data for various purposes such as navigation, GIS (positioning/attribute data), coordinate transformation and detail surveys for cartography databases.
The course also covers questions relating to local and global coordinate systems with special focus on projection systems and geodetic data. Control point networks such as national, municipal, and construction site networks are also studied. Examples of financial calculation regarding survey projects are treated through tender estimates.
Instruction is in the form of lectures, practical exercises, and lab work.
Students carry out measurements in the field using techniques such as static measurement, real time measurement with carrier waves (RTK), code measurement, and the differential method. Measurement data are calculated using baseline processing, session adjustment, network adjustment, and transformation to principal coordinate systems.
Students also learn other applications, for example, the collection of measurement data for various purposes such as navigation, GIS (positioning/attribute data), coordinate transformation and detail surveys for cartography databases.
The course also covers questions relating to local and global coordinate systems with special focus on projection systems and geodetic data. Control point networks such as national, municipal, and construction site networks are also studied. Examples of financial calculation regarding survey projects are treated through tender estimates.
Instruction is in the form of lectures, practical exercises, and lab work.
Progressive specialisation:
G1F (has less than 60 credits in first‐cycle course/s as entry requirements)
Education level:
Undergraduate level
Admission requirements
Passed course NGGA24 Geodesy 7.5 ECTS cr or NGGA26 Basic Geodetic Measuring Technique, 15 ECTS cr, or equivalent.
Selection:
Selection is usually based on your grade point average from upper secondary school or the number of credit points from previous university studies, or both.
This course is included in the following programme
- Programme in Surveying and Mapping (studied during year 3)