Course Details
Structural and Industry Geodesy
Academic Year 2023/24
NEB028 course is part of 1 study plan
NPC-SIK Summer Semester 1st year
Basic terms of structural geodesy.
Measurement errors, accuracy measures of 1D and 2D quantities, fundamentals of setting out accuracy analyses.
Precise methods of angle, distance, and height measurements.
Horizontal and vertical setting out methodology. Setting out drawings.
Setting out control networks.
Geodesy in designing and construction phases of structures.
Deformation measurements of structures.
Contemporary progressive geodetic measuring technologies (Global satellite navigation systems, Laser scanning).
Measurement errors, accuracy measures of 1D and 2D quantities, fundamentals of setting out accuracy analyses.
Precise methods of angle, distance, and height measurements.
Horizontal and vertical setting out methodology. Setting out drawings.
Setting out control networks.
Geodesy in designing and construction phases of structures.
Deformation measurements of structures.
Contemporary progressive geodetic measuring technologies (Global satellite navigation systems, Laser scanning).
Course Guarantor
Institute
Objective
Extended knowledge of geodesy in civil engineering.
Knowledge
Extended knowledge of students about geodesy in civil engineering.
Syllabus
1. Basic terms of structural geodesy. Measurement errors, accuracy measures of 1D and 2D quantities.
2. Fundamentals of setting out accuracy analyses. Precise methods of angle and distance measurements.
3. Precise levelling. Setting out of angles, distances, and heights.
4. Basic methods of horizontal and vertical setting out.
5. Setting out drawings. Setting out control networks. Geodesy in designing and realization of structures.
6. Deformation measurements of structures.
7. Progresive geodetic measuring technologies (Global satellite navigation systems, Laser sscanning, Photogrammetry).
2. Fundamentals of setting out accuracy analyses. Precise methods of angle and distance measurements.
3. Precise levelling. Setting out of angles, distances, and heights.
4. Basic methods of horizontal and vertical setting out.
5. Setting out drawings. Setting out control networks. Geodesy in designing and realization of structures.
6. Deformation measurements of structures.
7. Progresive geodetic measuring technologies (Global satellite navigation systems, Laser sscanning, Photogrammetry).
Prerequisites
Basic knowledge of mathematics and geodesy.
Language of instruction
Czech
Credits
2 credits
Semester
summer
Forms and criteria of assessment
course-unit credit
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, 1 hours/week, elective
Syllabus
1. Basic terms of structural geodesy. Measurement errors, accuracy measures of 1D and 2D quantities.
2. Fundamentals of setting out accuracy analyses. Precise methods of angle and distance measurements.
3. Precise levelling. Setting out of angles, distances, and heights.
4. Basic methods of horizontal and vertical setting out.
5. Setting out drawings. Setting out control networks. Geodesy in designing and realization of structures.
6. Deformation measurements of structures.
7. Progresive geodetic measuring technologies (Global satellite navigation systems, Laser sscanning, Photogrammetry).
Exercise
13 weeks, 1 hours/week, compulsory
Syllabus
1. Introduction, measures of precision, confidence intervals.
2. Accuracy analyses calculations of measurement and setting out.
3 Precise measurement of angles, parallactic method of distance measurement.
4. Precise leveling.
5. Indirect surveying of inaccessible distance.
6. GNSS measurement.
7. Check of fulfilling the credit conditions, final test, granting of credits.