Course Details

Geodesy 3

Academic Year 2025/26

BEA010 course is part of 1 study plan

BPC-GK Winter Semester 2nd year

Course Guarantor

prof. Ing. Viliam Vatrt, DrSc.

Institute

Institute of Geodesy

Language of instruction

Czech

Credits

5 credits

Semester

winter

Forms and criteria of assessment

course-unit credit and examination

Offered to foreign students

Not to offer

Course on BUT site

https://www.vut.cz/en/students/courses/detail/289955

Lecture

13 weeks, 2 hours/week, elective

Syllabus

  • 1. Trigonometric leveling. Geometrical leveling (presice leveling, very precise leveling).
  • 2. Two-dimensional conformal transformation. Calculation of transformation parameters by LSQ adjustment.
  • 3. Helmert's, affine and projective transformations. Correction transformed coordinates weighted average method.
  • 4. Three-dimensional conformal transformation. Rotating matrices. Calculation of transformation parameters by LSQ adjustment.
  • 5. Basics of GNSS – GPS, GLONAS and more.
  • 6. GNSS signals, navigation message correction measurements.
  • 7. Equation of the code and phase measurements. Solution of the autonomous positioning.
  • 8. Differential and linear combinations of code and phase measurements – principles and purpose.
  • 9. Differential GNSS systems, GNSS Applications.
  • 10. Selected methods of orientation – gyro measurements. Conversion of azimuth into bearing.
  • 11. Selected methods of directional orientation – magnetic measurements.
  • 12. Finding the points with known coordinates in terrain.
  • 13. Further development of technologies in geodesy.

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

  • 1. Trigonometric leveling 1.
  • 2. Trigonometric leveling 2.
  • 3. The calculation parameters conformal and Helmert transformation LSQ adjustment.
  • 4. The calculation parameters conformal and Helmert transformation LSQ adjustment.
  • 5. Equipment for GNSS.
  • 6. Static, rapid static and stop and go method of GPS measuring 1.
  • 7. Static, rapid static and stop and go method of GPS measuring 2.
  • 8. Processing static and stop and go measurements – 1.
  • 9. Processing static and stop and go measurements – 2.
  • 10. Real-time measurement.
  • 11. Gyroscophics azimuth.
  • 12. Finding the lost points with known coordinates.
  • 13. Credit.