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Real Estate Measurement Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
The aim of Professional Bachelor study of Digital Geodesy program is to prepare highly qualified real estate surveying engineering specialists capable of developing real estate objects, carrying out surveys with modern geodetic instruments, GPS equipment, using stationary 3D scanners and unmanned aerial vehicles (drones), using geoinformation technologies to create 3D digital surface models, using laser technologies and other methods to measure real estate data, carrying out cadastral measurements of buildings and land plots, preparing topographic and geodetic plans of engineering systems.
Learning outcomes:
The graduate of Digital Geodesy program will be able to:
1. Adapt traditional and innovative measurements engineering techniques and use methods for design & development, combining cost, benefit, safety of humans, quality, and reliability.
2. Apply knowledge of new technologies and solve geodetic, cartographic, spatial information infrastructure and territorial planning challenges.
3. Use methods of mathematical statistical data processing, measurement reliability and uncertainty determination methods, as well as be able to collect, analyze and systematize data.
4. Use measurement information for engineering research and other applied research, design different types of engineering maps and create information data sets.
5. Conduct practical research, planning and designing experiments, starting with problem formulation, selection of research equipment, and evaluation and qualification of results.
6. Make measurements with modern measuring devices, to analyze the results of real estate administration, formation, evaluation methods, that meet Lithuanian and EU standards and regulations.
7. Apply measurements software to solve engineering problems, obtain and process data solutions, produce computer graphics and perform digital projects.
8. Work independently as well as in a team, with a holistic understanding of the impact of engineering decisions on society and the environment, and in compliance with professional ethics and engineering standards.
9. Find out the interfaces of measurement solutions with their economic consequences, to understand the importance of individual lifelong learning and to prepare for it, to be able to communicate with the engineering community and the general public.
Activities of teaching and learning:
The Digital Geodesy study program is oriented to the development of generic and specialist competences and creativity: lectures, seminars, discussions, individual and group projects, practice, case studies, public presentation and defense of projects, mind-maps, problem - solving reading, writing articles, information search and systematizing, etc.
Methods of student achievement assessment:
The assessment of the learning outcomes of the study programme is carried out during the semester and the examination session applying a cumulative assessment system. During the semester, the learning outcomes are assessed by means of interim assignments: tests, individual and group projects, case studies, information search and systematizing, discussions, essays, independent creative tasks, seminars, term papers, practice reports, examinations, final projects and / or qualifying exams.
Framework:
Study subjects (modules), practical training:
Study subjects (127 credits): Foreign language (English), Applied Research Methodology, Mortgage, Geology, Cartography, Engineering Graphics, Geoinformatics, Spatial Planning, Geographical Information Systems, Environmental and Human Safety, Computer-Aided Design Systems, Fundamentals of Geodesy, Photogrammetry, Remote Sensing Technologies, Cadastral Measurements of Real Estate, Real estate business development, Topography, Digital maps, Geodetic instruments and measurement processing, Geo-information systems development (A1), Georeferenced datasets (A1), Information modelling of real estate objects (A2), Topographic and engineering infrastructure (A2), Real estate law, Cadastral surveys of buildings and engineering systems.
Optional subjects (6 credits).
Practical training (35 credits): Geo-information systems, Remote sensing technologies, Geodetic surveying and cadastral data identification, Topography, Final professional practice in surveying.
Final thesis (12 credits).
Specializations:
-
Optional courses:
It is possible:
- to select optional subjects.
- to select alternative subjects.
Distinctive features of a study programme:
The study program is fully equipped with the innovative technologies needed for learning: modern software systems, modern measuring instruments and methodological tools. Real Estate Surveying Engineering studies also cover the legal, financial and physical aspects of real estate, ensuring that projects are properly designed, compliant with legal requirements and sustainable, which ultimately adds value to real estate management as a whole.
Access to professional activity or further study:
Access to professional activity:
Graduates of this study program will be able to work in the following areas: work as real estate developers, carry out cadastral surveys of real estate (buildings and land plots), organize and carry out surveys with modern geodetic instruments, GPNS equipment, prepare topographic and geodetic plans, use stationary 3D scanners, scanning surfaces with LiDAR equipment and digital cameras from a low-flying drone, creating 3D spatial models with specialized software systems, creating thematic digital maps using GIS technologies.
Access to further study:
Access to the second cycle studies upon meeting requirements set by the accepting higher education institution.
