Course Details
Structural and Industrial Geodesy II
Academic Year 2023/24
HE20 course is part of 1 study plan
N-P-C-GK / GD Summer Semester 2nd year
Methodology of evaluation of structural deformation measurements.
Check and compliance measurement of structures.
Surveying of circular structures.
Determination of spatial relations of crane tracks.
Measurements during bridge loading tests.
Lasers in Engineering Geodesy.
Position optimisation of an axial structure system.
Coordinate calculations connected with road designing.
Computer aided designing of roads and railways.
Check and compliance measurement of structures.
Surveying of circular structures.
Determination of spatial relations of crane tracks.
Measurements during bridge loading tests.
Lasers in Engineering Geodesy.
Position optimisation of an axial structure system.
Coordinate calculations connected with road designing.
Computer aided designing of roads and railways.
Course Guarantor
Institute
Objective
Getting knowledge of ways of practical solutions of some typical engineering geodesy problems.
Knowledge
Student gets knowledge of ways of practical solutions of some typical engineering geodesy problems.
Syllabus
1. Surveying of crane tracks geometry.
2. Measurements during bridge loading tests.
3. Surveying of circular structures.
4. Measurements for recontruction of railway arc.
5. Optimization of axial system position in a building construction.
6. 3D industrial measuring systems.
7. Measurement of verticality of constructions.
8. Measurement of vertical displacements.
9. Methodology of evaluation of structural deformation measurements.
10. Check and compliance measurement of structures.
11. Coordinate calculations in design of transporatation structures.
12. Computer aided designing of roads and railways.
13. GPS applications in engineering geodesy.
2. Measurements during bridge loading tests.
3. Surveying of circular structures.
4. Measurements for recontruction of railway arc.
5. Optimization of axial system position in a building construction.
6. 3D industrial measuring systems.
7. Measurement of verticality of constructions.
8. Measurement of vertical displacements.
9. Methodology of evaluation of structural deformation measurements.
10. Check and compliance measurement of structures.
11. Coordinate calculations in design of transporatation structures.
12. Computer aided designing of roads and railways.
13. GPS applications in engineering geodesy.
Prerequisites
Knowledge of technology and accuracy analyses of measurement and setting out.
Language of instruction
Czech
Credits
5 credits
Semester
summer
Forms and criteria of assessment
course-unit credit and examination
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 3 hours/week, elective
Syllabus
1. Surveying of crane tracks geometry.
2. Measurements during bridge loading tests.
3. Surveying of circular structures.
4. Measurements for recontruction of railway arc.
5. Optimization of axial system position in a building construction.
6. 3D industrial measuring systems.
7. Measurement of verticality of constructions.
8. Measurement of vertical displacements.
9. Methodology of evaluation of structural deformation measurements.
10. Check and compliance measurement of structures.
11. Coordinate calculations in design of transporatation structures.
12. Computer aided designing of roads and railways.
13. GPS applications in engineering geodesy.
Exercise
13 weeks, 3 hours/week, compulsory
Syllabus
1. Practical surveying of crane tracks geometry.
2. Practical surveying of crane tracks geometry (continuation).
3. As built surveying of circular construction.
4. As built surveying of circular construction (continuation).
5. Determination of factory chimney vertical axis deviations.
6. Determination of factory chimney vertical axis deviations (continuation).
7. Measurement and evaluation of vertical deformations of specified building object.
8. Measurement and evaluation of vertical deformations of specified building object (continuation).
9. Measurement and evaluation of vertical deformations of specified building object (continuation).