University
Community
International Students
Studies
Research and Innovation
For Business
Faculties
Back

Geographic Information Systems

Full-time studies
Full-time studies
  • Department
    Faculty of Environmental Engineering
  • Program code
    6211EX036
  • Field of study
    Engineering
  • Qualification
    Master of Engineering Sciences
  • Duration
    2

About

GEODESY AND CARTOGRAPHY 

Degree Master of Engineering Sciences
Length 2 years (4 semesters)
Study language Lithuanian
Start 1st of September 
Entry Qualification To this programme applicants are accepted from the fields of: Measurement Engineering, Environmental Engineering, Civil Engineering, Transport Engineering, Physical Sciences (Geology, Environmental Sciences, Physical Geography).

 

Land surface measurement and mapping are the main tasks of geodesy and cartography specialists. Geodetic and cartographic information is the primary data on a spatial data infrastructure relevant for experts and users in other fields.

The study programme is aimed at training specialists who possess the latest specific knowledge of geodesy and cartography, manage to apply modern methods and technologies and are capable of accumulating, storing, displaying and analysing geodetic and cartographic data.

The Master's study programme in Geodesy and Cartography offers a specialization in Geographic information systems.

Geographic information systems are an area relevant to specialists in various fields and help with answering many questions of public importance. The information system concentrates on collecting, storing, displaying, editing, integrating and analysing digital spatially coordinated data.
The data obtained from the Geographic Information System (GIS) relates to the geographical location and helps the user to answer questions WHAT? is WHERE? The collected data assists with selecting the best place to install wind farms or finding information on the areas that might be flooded. A digital map developed using geographic information technology and supplemented with spatial analysis tools helps in answering the above introduced questions.
The students of this specialization master modern methods and technologies applied for building and developing geographic information systems and conducting research on the use of geographic information systems.

Learning outcomes

The Master's degree programme in Geodesy and Cartography is designed:

  • to create, develop and advance geographical information systems;
  • to compile algorithms for solving geodetic problems, geoinformation data sets;
  • to create spatial (geo) data;
  • to manage GIS data;
  • to design, create and develop the geodetic networks of various purposes and types;
  • to study geodynamic processes applying GIS technologies;
  • to solve the issues of developing and operating geodetic networks, geographical and cadastral information systems.

Career opportunities may include:

  • working for the organizations performing highly qualified work in the fields of geodesy, cartography or cadastre;
  • working for design, research, construction, environmental, etc. companies employing GIS data;
  • working for land management services, real estate agencies and mortgage institutions;
  • working for the companies and organizations of geographic information system technologies and remote sensing;
  • studying a Doctoral degree programme in environmental engineering and other fields.

 

Study subjects

1 - 2 Semesters

1 Semester

Specialization: Geodetic Network
obligatory
  • APGDM17001 9 credits

    Electronic Systems of Geodetic Measurements (with course project)

    Module aim

    To obtain the knowledge of the electronic geodetic measurement system working methods, opportunities to use it in the measurements. Being able to perform measurements, processing and evaluate of the accuracy.

    Module description

    Get acquainted with electronic measuring systems and their principles of operation. Distance measurement methods using electromagnetic vibrations are examined. Get acquainted with the features of these methods and the possibilities of their application in geodetic measurements. Possible measurement errors and corrections are discussed. During laboratory work and course work, geodetic measurements are performed using different measurement methods. Alignment, reduction, accuracy assessment and analysis of the obtained results are carried out.

  • APGDM17003 6 credits

    Geodetic Algorithms and Data Structures

    Module aim

    Geodetic algorithms and data structure studies aim to develop students’ analytical and critical thinking, the ability to analyze and make appropriate decisions, and competencies in the field of geodetic algorithms and data structures.

    Module description

    In this subject, you will get acquainted with data types, structures, and the basics of programming. You will study the principles of creating algorithms. You will learn to create algorithms for solving geodetic problems. After completing your studies, you will be able to write program codes, process data, systematize it, analyze it, and display it graphically.

  • APAVM17251 6 credits

    Scientific Researches and Innovations

    Module aim

    To provide the knowledge and ability to plan, organize and conduct research and apply for the preparation of his master’s work and publish the obtained results and understand the basics of innovation, their importance in the context of science and business synthesis for the student.

    Module description

    To introduce the research development, diversity, education levels, knowledge, scientific classification, scientific research work in organizing, planning, error analysis, innovation politic. Assist in capacity to apply theoretical knowledge in practice, the preparation work on a masters or doctorate degree. Introducing the preparation of publications, funding opportunities for innovation and intellectual property protection and management.

  • APGDM17002 6 credits

    Theory of the Figure of the Earth

    Module aim

    To prepare engineering specialists who have acquired the latest geodesy knowledge related to determining the shape of the Earth, able to perceive, analyze and raise problematic questions of determining the real and generalized shape of the Earth, theirs solutions based on acquired knowledge of gravimetry, geodetic astronomy and space geodesy methods.

    Module description

    This module explores the concept of determining the shape of the Earth. It examines the differences between the real (true) and the generalised shape of the Earth, the Earth’s gravitational field and the reasons for their variations. It covers the garvimetric, geodetic astronomy and space geodesy methods used to determine the Earth’s gravitational field and shape.

  • APGDM17005 3 credits

    Digital Photogrammetry

    Module aim

    Knowledge to digital images processing methods and digital photogrammetric systems applying for spatial geodata collection.

    Module description

    Fundamentals of digital photogrammetry technology, types of images and processing, application of photogrammetric measurement results in the field of engineering sciences.

obligatory
  • APGDM17001 9 credits

    Electronic Systems of Geodetic Measurements (with course project)

    Module aim

    To obtain the knowledge of the electronic geodetic measurement system working methods, opportunities to use it in the measurements. Being able to perform measurements, processing and evaluate of the accuracy.

    Module description

    Get acquainted with electronic measuring systems and their principles of operation. Distance measurement methods using electromagnetic vibrations are examined. Get acquainted with the features of these methods and the possibilities of their application in geodetic measurements. Possible measurement errors and corrections are discussed. During laboratory work and course work, geodetic measurements are performed using different measurement methods. Alignment, reduction, accuracy assessment and analysis of the obtained results are carried out.

  • APGDM17003 6 credits

    Geodetic Algorithms and Data Structures

    Module aim

    Geodetic algorithms and data structure studies aim to develop students’ analytical and critical thinking, the ability to analyze and make appropriate decisions, and competencies in the field of geodetic algorithms and data structures.

    Module description

    In this subject, you will get acquainted with data types, structures, and the basics of programming. You will study the principles of creating algorithms. You will learn to create algorithms for solving geodetic problems. After completing your studies, you will be able to write program codes, process data, systematize it, analyze it, and display it graphically.

  • APAVM17251 6 credits

    Scientific Researches and Innovations

    Module aim

    To provide the knowledge and ability to plan, organize and conduct research and apply for the preparation of his master’s work and publish the obtained results and understand the basics of innovation, their importance in the context of science and business synthesis for the student.

    Module description

    To introduce the research development, diversity, education levels, knowledge, scientific classification, scientific research work in organizing, planning, error analysis, innovation politic. Assist in capacity to apply theoretical knowledge in practice, the preparation work on a masters or doctorate degree. Introducing the preparation of publications, funding opportunities for innovation and intellectual property protection and management.

  • APGDM17002 6 credits

    Theory of the Figure of the Earth

    Module aim

    To prepare engineering specialists who have acquired the latest geodesy knowledge related to determining the shape of the Earth, able to perceive, analyze and raise problematic questions of determining the real and generalized shape of the Earth, theirs solutions based on acquired knowledge of gravimetry, geodetic astronomy and space geodesy methods.

    Module description

    This module explores the concept of determining the shape of the Earth. It examines the differences between the real (true) and the generalised shape of the Earth, the Earth’s gravitational field and the reasons for their variations. It covers the garvimetric, geodetic astronomy and space geodesy methods used to determine the Earth’s gravitational field and shape.

  • APGDM17005 3 credits

    Digital Photogrammetry

    Module aim

    Knowledge to digital images processing methods and digital photogrammetric systems applying for spatial geodata collection.

    Module description

    Fundamentals of digital photogrammetry technology, types of images and processing, application of photogrammetric measurement results in the field of engineering sciences.

2 Semester

Specialization: Geodetic Network
obligatory
  • APGDM17008 9 credits

    Innovative Solutions in Geodetic Networks (with course project)

    Module aim

    Provide students with knowledge about geodetic measurements of high-rise constructions and buildings.

    Module description

    Geodetic work constructing high-rise buildings and constructions. Specific geodetic work constructing unique buildings. Application of up-to-date geodetic instruments and methods.

  • APGDM17009 6 credits

    Geodynamics

    Module aim

    To master the fundamental knowledge on the present geodynamic processes and their research methods.

    Module description

    Basics of geodynamic processes and significance for geodesy and other sciences. Methods of geodynamic processes research. Determinationof vertical, horizontal and three dimentional earth krust deformations from geodetic observations. Invariant methods of the eath krust deformation research in reliation of koordinate systems. Complex anglysis of research results and geotectinic interpretation.

  • APGDM17007 6 credits

    Geoinformation Data Bases (with course project)

    Module aim

    Prepare specialists of measurement engineering who obtained latest knowledge related to the creation of the geoinformation data bases, being able to understand, analyse and rise the problematic questions on the construction and development of the data bases, with involving to their solutions the methods of the information technologies, creation and development of the geodetic control.

    Module description

    The module is intended for deepening knowledge about geoinformation systems datasets. In the theoretical part, the greatest attention is paid to the peculiarities of geodetic and cartographic data, state geodetic and georeferenced data sets are examined, also database management systems are presented, paying special attention to the elements of object-oriented programming and the SQL language. In the practical part, computer procedures are developed to solve special geodetic tasks using programming languages of database systems. In the coursework, a data set of geoinformation systems is created on a selected geodetic-cartographic-geophysical topic and a computer application is prepared to manage the created data set.

  • APGDM17006 6 credits

    Remote Sensing Methods

    Module aim

    Gain ability to analyze, to process the satellite imagery and to applay the Remote Sensing methods for territory mapping,
    having information about methods for getting Remote Sensing geodata and used sensors/platforms.

    Module description

    Remote Sensing properties of objects based on research methods are determined based on image and scanning data material. This material comes from satellite systems whose types, structures, and other characteristics are reviewed in this subject. Much attention is paid to the use of data in research in various fields.

  • APGDM17010 3 credits

    Research Work 1 (Geodetic Networks)

    Module aim

    Analyse the literature and the knowledge of Geographic Information System or Geodetic Network for the master’s thesis.

    Module description

    Chosen thesis topic, the scientific and technical literature search of documents, analysed the literature, performed the analysis of Geodesy and Cartography study programme, strengthen knowledge of course the first semester.

obligatory
  • APGDM17020 9 credits

    Geoinformation Systems Design (with course project)

    Module aim

    To master the purpose, the structure, the peculiarities and practical application of the geoinformation systems; to teach how to collect, organize and analyze information obtained by geodetic measurements, the design of geoinformation systems of measurement databases; to know how to design the thematical information layers, to know the trick how to apply the geoinformation systems technologies to perform the spatial analysis.

    Module description

    The course of geoinformation systems design will allow students to understand the essential aspects of concept, the structure and administration. During the lectures, the principles and methods of forming the geoinformation systems, data sources of geoinformation systems are reviewed in detail; formats of geometrical and attribute data, topological methods for the information description are analyzed; specifications of the geometrical data, structures of the attribute data and design of the thematic information layers are examined; the multipurposefulness of the geoinformation systems, methods and forms of data application are discussed.

  • APGDM17021 6 credits

    Spatial Information Infrastructures

    Module aim

    To provide students with knowledge in the development of spatial information infrastructures, to apply it to the creation and development of the geodetic base.

    Module description

    The module is intended to introduce the basic technologies of spatial information infrastructure development. It discusses the relevance and practical significance of spatial information infrastructure, data sources and their users. In the theoretical part, much attention is paid to the hardware and software used to develop the spatial information infrastructure. In the practical part, the main focus is on creating a spatial information infrastructure using Mapserver software. To deepen the knowledge, students are introduced to the elements of Web programming using procedures written in HTML.

  • APGDM17007 6 credits

    Geoinformation Data Bases (with course project)

    Module aim

    Prepare specialists of measurement engineering who obtained latest knowledge related to the creation of the geoinformation data bases, being able to understand, analyse and rise the problematic questions on the construction and development of the data bases, with involving to their solutions the methods of the information technologies, creation and development of the geodetic control.

    Module description

    The module is intended for deepening knowledge about geoinformation systems datasets. In the theoretical part, the greatest attention is paid to the peculiarities of geodetic and cartographic data, state geodetic and georeferenced data sets are examined, also database management systems are presented, paying special attention to the elements of object-oriented programming and the SQL language. In the practical part, computer procedures are developed to solve special geodetic tasks using programming languages of database systems. In the coursework, a data set of geoinformation systems is created on a selected geodetic-cartographic-geophysical topic and a computer application is prepared to manage the created data set.

  • APGDM17006 6 credits

    Remote Sensing Methods

    Module aim

    Gain ability to analyze, to process the satellite imagery and to applay the Remote Sensing methods for territory mapping,
    having information about methods for getting Remote Sensing geodata and used sensors/platforms.

    Module description

    Remote Sensing properties of objects based on research methods are determined based on image and scanning data material. This material comes from satellite systems whose types, structures, and other characteristics are reviewed in this subject. Much attention is paid to the use of data in research in various fields.

  • APGDM17011 3 credits

    Research Work 1 (Geographic Information Systems)

    Module aim

    Analyse the literature and the knowledge of Geographic Information System for the master’s thesis.

    Module description

    Chosen thesis topic, the scientific and technical literature search of documents, analysed the literature, performed the analysis of Geodesy and Cartography study programme, strengthen knowledge of course the first semester.

3 Semester

Specialization: Geodetic Network
obligatory
  • APGDM17014 9 credits

    Geodetic Laser Scanning Technologies (with course project)

    Module aim

    Knowledge about laser scanning technologies, their constructions and abilities of use it in geodetic measurements. Ability to perform measurements, process data and compute its accuracy.

    Module description

    Laser scanning equipment and measurement methods are used to solve geodetic tasks. Laser scanning technologies, operating principle, measurement methodology, data processing and presentation are introduced.

  • APGDM17013 9 credits

    GIS on the Internet (with Course Project)

    Module aim

    Prepare specialists of measurement engineering who obtained latest knowledge related to the development of the geoinformation systems on the internet, being able to understand, analyse and rise the problematic questions on the technologies of the geoinformation systems on the internet, with involving to their solutions the methods of the information technologies, creation and development of the geodetic control.

    Module description

    The background of the design of Geoinformation Systems on the internet. The sources of Data of Geoinformation Systems. Users of the geoinformation systems on the internet. Hypertext programming languages. Geoinformation Systems visualisation on the internet. File formats and plug-ins. Organisation of information search. The visualisation of thematic layers on the internet. Geographic Information Infrastructures.

  • APGDM17012 6 credits

    Geoinformation Systems Technology

    Module aim

    Prepare specialists of measurement engineering who obtained latest knowledge related to the technologies of the geoinformation systems, being able to understand, analyse and rise the problematic questions on the technologies of the geoinformation systems, with involving to their solutions the methods of the information technologies, creation and development of the geodetic control.

    Module description

    Concept and application possibilities of geographic information systems (GIS) data and technology in various fields. Possibilities of creating thematic maps, their publication.

  • APGDM17015 3 credits

    Research Work 2 (Geodetic Networks)

    Module aim

    Implement the inquiring work and prepare the report.

    Module description

    Implement of inquiring work, prepared the report, and performed the analysis of Geodesy and Cartography study programme.

obligatory
  • APGDM17014 9 credits

    Geodetic Laser Scanning Technologies (with course project)

    Module aim

    Knowledge about laser scanning technologies, their constructions and abilities of use it in geodetic measurements. Ability to perform measurements, process data and compute its accuracy.

    Module description

    Laser scanning equipment and measurement methods are used to solve geodetic tasks. Laser scanning technologies, operating principle, measurement methodology, data processing and presentation are introduced.

  • APGDM17017 9 credits

    Digital Surface Models (with course project)

    Module aim

    To develop students’ analytical and critical thinking, the ability to analyze and make appropriate decisions in the field of surface modeling and analysis.

    Module description

    Studying acquainted with the terrain surface modeling using mathematical models, with data retrieval methods, with the digital terrain model creation and analysis methods.

  • APGDM17012 6 credits

    Geoinformation Systems Technology

    Module aim

    Prepare specialists of measurement engineering who obtained latest knowledge related to the technologies of the geoinformation systems, being able to understand, analyse and rise the problematic questions on the technologies of the geoinformation systems, with involving to their solutions the methods of the information technologies, creation and development of the geodetic control.

    Module description

    Concept and application possibilities of geographic information systems (GIS) data and technology in various fields. Possibilities of creating thematic maps, their publication.

  • APGDM17016 3 credits

    Research Work 2 (Geographic Information Systems)

    Module aim

    Begin to carry out the first tasks of the master’s final thesis and plan research.

    Module description

    Scientific research work in the field of geodesy and cartography. Based on the analysis of the literature, the goal of the master’s thesis, tasks, planned methods of practical measurements, geographic information systems and research have been clarified.

Free choice

4 Semester

Specialization: Geodetic Network
obligatory
obligatory
  • APGDM17019 30 credits

    Master Graduation Thesis (Geographic Information Systems)

    Module aim

    Based on the material collected during the studies and the conducted research, prepare a master’s thesis report according to the requirements, and present it to the defense commission in summary.

    Module description

    This is an individual work, when the studies carried out up to now on the scale of the study program are completed, their summarization is carried out, a report of the completed studies is prepared, the thesis defense is prepared and it is defended. The student reads a public report on the subject of the research conducted. In the introductory part of the thesis, the problem under consideration is clearly formulated, the research object is chosen, research goals and objectives are indicated, and the chosen methodology, modeling and/or measurement tools are presented. The obtained results are presented, research conclusions and recommendations are clearly and reasonably formulated. The work is formalized according to the requirements approved by the university.

Statistics

Metric Value
Enrolled students 4
Enrolled to FT 4
Min FT grade 7.98