Course Details

Complex Project

Academic Year 2023/24

NEA043 course is part of 1 study plan

NPC-GK Winter Semester 2nd year

Formulation of integrated practical task from selected field of geodesy.
Task project conduction in accordance with technical standards.
Surveying by selected method of measurement (GNSS technology, EOD measurement, laser scanning, leveling).
Processing (computation) of measuring results. Evaluation of project results.
Graphical presentation of results.
Elaboration of documentation in accordance with current technical prescriptions.
Presentation of results.

Course Guarantor

Institute

Objective

Practical field training in application of engineering geodesy methods in scopes of assigned integrated project. Processing and evaluation of results, and elaboration of required complex documentation.

Knowledge

Student gets practical field training in application of engineering geodesy methods in scopes of assigned integrated project, including the processing and evaluation of results, and elaboration of required complex documentation.

Prerequisites

Knowledge of methods of geodetic measurement and their evaluation.
Using the GNSS instruments, EDM instruments, leveling instruments and laser scanners.
Knowledge of software for geodetic computation, CAD software (e.g. MicroStation), GIS software, software for cloud points processing.

Language of instruction

Czech

Credits

4 credits

Semester

winter

Forms and criteria of assessment

graded 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

Project

13 weeks, 4 hours/week, compulsory

Syllabus

1. Assign the special task. Make the work groups. 2. Creation the complex project of task, design the processing. Analysis the inputs. 3. Reconnaissance of asigned locality. 4. Preparation and planing the measurement (e.g. project and creation of station point marks, stabilisation of control points, placing targets for measurement). 5. Geodetic measurement by selected methods. 6. Computatin of measured values(e.g. computation and adjustment of network points, computation of coordinates of control points, connection of measured point clouds, transformation of final point cloud to S-JTSK). 7. Making the parts of documentation in digital form by measured data (e.g. digital terrain model, design of floor plan, design of section, summary of volume, areas and materials). 8. Making the print results. 9. Writing the technical report. 10.–13. Checking and submission of the documentation. Correction possible errors.