Course Details
Engineering Geodesy 2
Academic Year 2023/24
NEA030 course is part of 1 study plan
NPC-GK Winter Semester 1st year
Methodology of accuracy analyses of engineering geodesy tasks. Detailed relative and two-step accuracy analyses of horizontal and vertical setting out methods.
Geodesy in preparation and designing of structures. Setting out and measurement during construction of building and transportation structures. Geodesy in bridge construction. Geodetic documentation of monumental buildings, measurements for reconstruction of buildings.
Prescriptions and standards for engineering geodesy.
Geodesy in preparation and designing of structures. Setting out and measurement during construction of building and transportation structures. Geodesy in bridge construction. Geodetic documentation of monumental buildings, measurements for reconstruction of buildings.
Prescriptions and standards for engineering geodesy.
Course Guarantor
Institute
Objective
Mastering of methodology for setting out accuracy analysis of basic geometrical quantities. Mastering of methodology for setting out two dimensional accuracy analysis of horizontal positional parameters.
Acquaintance with basic tasks of geodesy in various fields of civil engineering.
Acquaintance with engineering geodesy standards and prescriptions.
Acquaintance with basic tasks of geodesy in various fields of civil engineering.
Acquaintance with engineering geodesy standards and prescriptions.
Knowledge
Student masters the methodology for setting out two dimensional accuracy analysis of horizontal positional parameters.
Student gets acquainted with complex tasks of geodesy in various fields of civil engineering, including the overview of standards and prescriptions for engineering geodesy .
Student gets acquainted with complex tasks of geodesy in various fields of civil engineering, including the overview of standards and prescriptions for engineering geodesy .
Syllabus
1. Methodology of engineering geodesy accuracy analyses.
2. Detailed relative and two-step accuracy analyses of horizontal and vertical setting out methods 1.
3. Detailed relative and two-step accuracy analyses of horizontal and vertical setting out methods 2.
4. Geodesy in preparation and designing of structures.
5. Setting out drawings.
6. Control networks for setting out – building and accuracy analysis.
7. Measurements for transportation structures 1.
8. Measurements for transportation structures 2.
9. Measurements for bridge construction.
10. Geodetic documentation of monumental buildings, measurements for reconstruction of buildings.
11. Industry geodesy 1.
12. Industry geodesy 2.
13. Legal prescriptions and standards for engineering geodesy. Contemporary progressive measuring techniques.
2. Detailed relative and two-step accuracy analyses of horizontal and vertical setting out methods 1.
3. Detailed relative and two-step accuracy analyses of horizontal and vertical setting out methods 2.
4. Geodesy in preparation and designing of structures.
5. Setting out drawings.
6. Control networks for setting out – building and accuracy analysis.
7. Measurements for transportation structures 1.
8. Measurements for transportation structures 2.
9. Measurements for bridge construction.
10. Geodetic documentation of monumental buildings, measurements for reconstruction of buildings.
11. Industry geodesy 1.
12. Industry geodesy 2.
13. Legal prescriptions and standards for engineering geodesy. Contemporary progressive measuring techniques.
Prerequisites
Knowledge of principles and methodology of accuracy analyses . Knowledge of geodetic measuring principles.
Language of instruction
Czech
Credits
6 credits
Semester
winter
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. Methodology of engineering geodesy accuracy analyses.
2. Detailed relative and two-step accuracy analyses of horizontal and vertical setting out methods 1.
3. Detailed relative and two-step accuracy analyses of horizontal and vertical setting out methods 2.
4. Geodesy in preparation and designing of structures.
5. Setting out drawings.
6. Control networks for setting out – building and accuracy analysis.
7. Measurements for transportation structures 1.
8. Measurements for transportation structures 2.
9. Measurements for bridge construction.
10. Geodetic documentation of monumental buildings, measurements for reconstruction of buildings.
11. Industry geodesy 1.
12. Industry geodesy 2.
13. Legal prescriptions and standards for engineering geodesy. Contemporary progressive measuring techniques.
Exercise
13 weeks, 3 hours/week, compulsory
Syllabus
1. Introduction, conditions for credit obtaining, fundamental terms, permissible setting out deviations.
2. Indirect slope distance measurement, accuracy analysis and practical surveying.
3. Setting out of elevation of specified object by leveling and trigonometric method, accuracy analysis, practical solution, drawing up of handover protocol.
4. Setting out of horizontal position by intersection, accuracy analysis, mean error ellipses.
5. Setting out of horizontal position by resection, accuracy analysis by standard and simulation method, mean error ellipses.
6. Setting out of horizontal position by intersection from distances, accuracy analysis, mean error ellipses.
7. Setting out of horizontal position by open traverse, accuracy analysis, breakthrough traverse.
8. Design of primary system of specified structure, setting out drawing for set of buildings, use of standards.
9. Design of primary system of specified structure, setting out drawing for set of buildings, use of standards (continuation).
10. Road design, circular arc with spiral curves, overall site plan, longitudinal section, use of standards.
11. Road design, setting out drawing, elements of secondary system setting out, setting out of detail points.
12. Road design, vertical alignment, volume computation, setting out accuracy analysis, finalization.
13. Final check of fulfilling the credit conditions, granting of credits.