Branch Details

Geodesy and Cartography

Original title in Czech: Geodézie a kartografieFASTAbbreviation: GAKAcad. year: 2018/2019

Programme: Geodesy and Cartography

Length of Study: 3 years

Accredited from: 26.7.1999Accredited until: 31.12.2020

Profile

Doctoral study graduate (Ph.D.) in specialization Geodesy and Cartography is linked up to the magister degree of Geodesy and Cartography.
The study programme offers two specializations: Geodesy, and Cartography. Doctoral student has to absorb required amount of enlarged mathematical-physical basic knowledge. In addition he has to pass through the subjects of special applied basis including the methods of measurement, the evaluation, and analysis of geodetic and cartographic data, the physical geodesy, the satellite and space geodesy, geographic and cartographic information systems and others. Further subjects are added according to scopes of the dissertation thesis. Firstly it concerns the fields of geodetic controls, engineering geodesy, global positioning systems, photogrammetry and remote sensing, cadastre of real estates, digital cartography, and others. In course of doctoral studies the graduate adopts methodology of scientific work, and gets deep theoretical and language knowledge which qualifies him for individual creative scientific activity. Doctoral study graduate in specialization Geodesy and Cartography can be employed in development and research institutions of appropriate specialization, and also as academic staff at universities.

Supervisor

Issued topics of Doctoral Study Program

  1. Calibration of measuring devices employed in building activities on a sea bed

    Building activities on a sea bed are related mainly with oil and gas extraction or with construction of wind power plants. Special on board equipment is used for positioning and orientation of employed ships or theirs parts. Accuracy higher then 10 cm in position is required and so the equipment has to be calibrated at the start of each project. At present, no clear rules for performing such calibrations exist. Goal of the theme is proposal of calibration methodologies based on analysis of current state of affairs.

    Tutor: Machotka Radovan, doc. Ing., Ph.D.

  2. Deformation surveying with Global Navigation Satellite Systems technology

    Current methodology of deformation surveying using Global Navigation Satellite Systems according to present state of development. Analysis and critical review of contemporary observation and processing techniques employing permanent and epoch-wise observations. Testing of modified methods of deformation surveying of various object types.

    Tutor: Švábenský Otakar, prof. Ing., CSc.

  3. Geometrical accuracy in building industry

    The theme of the work is the issue of the geometric accuracy construction. The methodology will be resolved by the check measurement of geometric parameters of structures using the geodetic measurement technology (robotic total stations, GNSS, laser scanning, etc.) and their documentation as part of the construction quality. Part of the solution is the analysis of the product standards (the Eurocodes) in terms of the geometric accuracy of the structures in the context setting out standards.

    Tutor: Bureš Jiří, doc. Ing., Ph.D.

  4. Indoor mobile mapping

    The goal of the theme is development of mobile mapping and 3D modeling system for building interiors. In the first step, capturing of closed spaces with flat floors will be solved. Future aiming will depend on deep research of customers demands as same as overall trends in the particular segment of market.

    Tutor: Machotka Radovan, doc. Ing., Ph.D.

  5. Integrated model of quasigeoid for territory of south Moravia

    There are available several models of quasigeoid on the territory of the Czech Republic. There has been used various data and methods for their creation. There will by useful -to evaluate methods their creation -to propose methods for the integrated model of quasigeoid creation (with expoitation of additional data).

    Tutor: Vatrt Viliam, prof. Ing., DrSc.

  6. Integrating GPS & InSAR to Resolve Stressing Rates Along the Main fault on theMorava territory

    Integrating GPS and InSAR velocities may be key to improving strain rate accuracy and resolution – information that is critical for assessing seismic hazards. Strain rate, which is typically greatest within 10-50 km of an active fault, is calculated by taking the spatial derivative of measured crustal velocities. GPS and InSAR, when optimally integrated, will be the primary geodetic tools for resolving crustal strain rate in the most critical regions of our active areas.

    Tutor: Pospíšil Lubomil, doc. RNDr., CSc.

  7. Integrating GPS & InSAR to Resolve Stressing Rates Along the Main fault on theMorava territory

    Integrating GPS and InSAR velocities may be key to improving strain rate accuracy and resolution – information that is critical for assessing seismic hazards. Strain rate, which is typically greatest within 10-50 km of an active fault, is calculated by taking the spatial derivative of measured crustal velocities. GPS and InSAR, when optimally integrated, will be the primary geodetic tools for resolving crustal strain rate in the most critical regions of our active areas.

    Tutor: Pospíšil Lubomil, doc. RNDr., CSc.

  8. Methods development of qualitative appreciation of data of progressive measuring techniques via GIS tools on the basis of operational analysis

    The subject of the topic is the development of methods of qualitative data evaluation of advanced surveying technology tools GIS-based operational research, including qualitative evaluation and optimization of data acquired technologies, laser scanning, photogrammetry and GNSS. The aim is to effective data extraction, increase their information content and practical usability. The solution will be the optimization of data collection based on the analysis of e.g. operational graph algorithms.

    Tutor: Bartoněk Dalibor, doc. Ing., CSc.

  9. Monitoring of Structures

    The theme of the doctoral work is the issue of structure monitoring. Automated continuous measurement or epochs measurement using electronic measuring stations of different types will be solved. The solution will be a methodology for measuring, the issue of the integration of disparate data and their evaluation, graphical representation of the results, the analysis of the accuracy and interpretation of the results.

    Tutor: Bureš Jiří, doc. Ing., Ph.D.

  10. Optimizing the acquisition and processing of data acquired from unmanned vehicles

    In the last 5 years there has been a large increase in the number of companies using data from unmanned vehicles.This is a large number of pictures and consequently a huge number of generated points, in many cases completely redundant. The aim is to analyze the parameters of experimental imaging and scanning and subsequent processing, including calibration flights.

    Tutor: Hanzl Vlastimil, doc. Ing., CSc.


Course structure diagram with ECTS credits

1. year of study, winter semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
IE52Analysis of Measuring Datacs8winterCompulsory-optionalEx3988yes
IE51Geodesycs8winterCompulsory-optionalEx3988yes
IU543D Modelling in CAD Systemscs8winterCompulsory-optionalEx3988yes
1. year of study, summer semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
DA03Probability and mathematical statisticscs7summerCompulsoryExyes
DB01Building physicscs7summerCompulsoryExyes
IE55Digital image processingcs7summerCompulsory-optionalEx3989yes
IE53Physical Geodesycs7summerCompulsory-optionalEx3989yes
IE54Geodetic Networkscs7summerCompulsory-optionalEx3989yes
IU53Relational Database Management Systemscs7summerCompulsory-optionalEx3989yes
DA58Discrete Methods in Civil Engineering Ics4summerCompulsory-optionalAc4825yes
DA01Mathematicscs4summerCompulsory-optionalAc4825yes
DA61Numerical methods Ics4summerCompulsory-optionalAc4825yes
2. year of study, winter semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
IE57Satellite Geodesycs8winterCompulsory-optionalEx3998yes
IE58Photogrammetrycs8winterCompulsory-optionalEx3998yes
IE59Information Systems and Digital Cartographycs8winterCompulsory-optionalEx3998yes
IE56Engineering Geodesycs8winterCompulsory-optionalEx3998yes
DA65Time series analysiscs10winterCompulsory-optionalEx4826yes
DA67Applications of mathematical methods in economicscs10winterCompulsory-optionalEx4826yes
DA59Discrete Methods in Civil Engineering IIcs10winterCompulsory-optionalEx4826yes
DA02Mathematics IIcs10winterCompulsory-optionalEx4826yes
DA63Numerical methods IIcs10winterCompulsory-optionalEx4826yes
DA66Numerical methods for the variational problemscs10winterCompulsory-optionalEx4826yes
DA64Models of regressioncs10winterCompulsory-optionalEx4826yes
2. year of study, summer semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
DY01English for the Doctoral Study Programmecs8summerCompulsoryExyes
All the groups of optional courses
Gr. Min. Courses
3988 0 IE52, IE51, IU54
3989 0 IE55, IE53, IE54, IU53
3998 0 IE57, IE58, IE59, IE56
4825 0 DA58, DA01, DA61
4826 0 DA65, DA67, DA59, DA02, DA63, DA66, DA64