Search result: Catalogue data in Autumn Semester 2017
Geomatic Engineering and Planning Bachelor | ||||||
3. Semester | ||||||
Compulsory Courses | ||||||
Examination Block 2 | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
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103-0115-00L | Geodetic Metrology II | O | 5 credits | 4G | A. Wieser, G. Boffi | |
Abstract | Advanced topics in geodetic metrology with focus on instrumental and methodic aspects for applications with higher accuracy demands. | |||||
Learning objective | The students acquire enhanced knowledge regarding the operating mode, the application and the limitations of modern geodetic standard instruments. They will be able to properly select, test and apply these instruments for geodetic tasks with higher accuracy requirements. They will get acquainted with the typical workflow from the preparation of the field works to the digital or plotted plan. Finally, the students will be introduced to specific geodetic tasks related to construction and civil engineering. | |||||
Content | - The geomatics workflow - Propagation of light in the atmosphere - The modern total station - Terrestrial Laserscanning - Digital levels - Field tests - Transformations and Centering - Trigonometric leveling - Precision leveling - Route planing and transition curves | |||||
Lecture notes | The slides and documents for enhanced study and further reading will be provided online. | |||||
Literature | Witte B, Sparla P (2015) Vermessungskunde und Grundlagen der Statistik für das Bauwesen. 8. Aufl., Wichmann Verlag. | |||||
103-0233-01L | GIS I | O | 3 credits | 2G | M. Raubal | |
Abstract | Fundamentals of geoinformation technologies: spatial data modeling, metrics & topology, vector and raster data, thematic data, spatial queries and analysis, spatial databases; group project with GIS software | |||||
Learning objective | Knowing the fundamentals of geoinformation technologies for the realization, application and operation of geographic information systems in engineering projects. | |||||
Content | Einführung GIS & GIScience Konzeptionelles Modell & Datenschema Vektorgeometrie & Topologie Rastergeometrie und -algebra Thematische Daten Räumliche Abfragen & Analysen Geodatenbanken | |||||
Lecture notes | Vorlesungspräsentationen werden digital zur Verfügung gestellt. | |||||
Literature | Bartelme, N. (2005). Geoinformatik - Modelle, Strukturen, Funktionen (4. Auflage). Berlin: Springer. Bill, R. (2016). Grundlagen der Geo-Informationssysteme (6. Auflage): Wichmann. Worboys, M., & Duckham, M. (2004). GIS - A Computing Perspective (2nd Edition). Boca Raton, FL: CRC Press. |
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