1. Introduction to the theory of heights.
2. Height point field, classification, history of building, stabilization.
3. Height reference systems, basic characteristics.
4. Methods of determination of cant, leveling instruments, sources of errors, verification of correctness.
5. Geometric leveling, systematic errors, principle.
6. Trigonometric method of determination of cant, principle, refraction.
7. Tachymmetry, measurement methodology, instruments and aids.
8. Methods of measurement of planimetry, data processing and interpretation.
9. Methods of altimetry measurement, data processing and interpretation.
10. Determination of surfaces and volumes.
11. GNSS technology, basic concepts, measurement technology.
12. GNSS technology, measurement methods, systematic errors, method of processing.
13. Satellite navigation systems, permutation stations systems, legislation.
14. Coordinate transformation, planar, spatial.
2. Height point field, classification, history of building, stabilization.
3. Height reference systems, basic characteristics.
4. Methods of determination of cant, leveling instruments, sources of errors, verification of correctness.
5. Geometric leveling, systematic errors, principle.
6. Trigonometric method of determination of cant, principle, refraction.
7. Tachymmetry, measurement methodology, instruments and aids.
8. Methods of measurement of planimetry, data processing and interpretation.
9. Methods of altimetry measurement, data processing and interpretation.
10. Determination of surfaces and volumes.
11. GNSS technology, basic concepts, measurement technology.
12. GNSS technology, measurement methods, systematic errors, method of processing.
13. Satellite navigation systems, permutation stations systems, legislation.
14. Coordinate transformation, planar, spatial.