Speciality Code:


Speciality Name:



Geography and Environmental Sciences

  • Model of graduating student
  • Mandatory disciplines
  • Elective disciplines
  • Professional
Upon completion of this program, it is expected that undergraduates will be able to:
demonstrate modern scientific knowledge of geodetic modeling of spatial systems of various territorial ranks and classifications;
- explain the integration of knowledge in geodesic modeling in the system of geoinformation geodesy;
- explain the factors of the formation of integrative areas in the theory and methodology of modern geodesy
- Integrate knowledge in the conduct of research and technological development;
- - To use the software for topographic and geodetic surveys, construction of objects, land surveying;
- to make tasks, programs and projects of geodetic monitoring works for the study of deformations of buildings and engineering structures;
- consider the data of remote sensing of the Earth as an object of study by means of computer technology;
- to interpret the modern system of knowledge and interdisciplinary methods of geodetic modeling in the planning of applied scientific research and the educational process;
- to characterize the level of development of domestic geodesy, its potential and growth opportunities;
- Create geodetic reference networks using GIS technologies - use the system of regulatory documents in construction;
- Analyze spatial data and corresponding algorithms for automating technological processes of geodetic measurements.
- use geodetic information when analyzing and solving problems of regional spatial systems;
- effectively choose software when designing geodesic works and analyzing satellite images
- Use the theory of estimating the accuracy of measurements of lengths, angles, elevations and functions for equalizing the values of coordinates, azimuths and lengths of lines.
- to build the logical matrix of the legend when designing geodetic works of various purposes and scales;
- correctly build a methodology for geodetic analysis and design, taking into account the general methodology of scientific research
- Formulate problems and tasks of scientific research, choose the appropriate methodology, determine the stages of research, evaluate and interpret the results obtained;
- Apply methods and production technology of engineering and geodetic surveys, carry out activities in the field of engineering surveys for construction;
Critically evaluate the existing methods of analysis in relation to the study of the geotechnical state in the development of oil and gas fields and solid metals.
- demonstrate the application of innovative methods and perspective trends of modern geodesy in the planning of scientific and educational programs;
- use a differentiated approach when choosing types of geodesic modeling of the structure and dynamics of various spatial systems (geosystems)
- Apply the theory of assessing the accuracy of measurement results and functions for equalizing coordinate values.
- provide a comparative analysis of the advantages and disadvantages of existing global navigation satellite systems for geodesy;
- to formulate and substantiate the basis of local, regional, national geodetic monitoring;
- to classify methods of geodetic modeling using various systems for monitoring and controlling the environment
- apply methods in studies of observations of deformation and precipitation of precision technical structures;
- Analyze previously laid points of the state geodetic networks.
- to characterize the factors of changes in the structure and dynamics of spatial systems and to build their forecast cartographic models;
- visualize the natural and man-made risks of spatial systems, their environmental and socio-economic consequences for society
- Apply practical skills in the field of automated technology for the production of geodetic works;
- Formulate and create database structures for solving research problems in geodesy and geodynamics;
-Systematize network forms and networking;
- Evaluate and manage the stages of engineering and geodetic works in field and office conditions.
- make forecast maps of natural and man-made risks for making management decisions;
- update and apply digital technologies when updating the geodesic, toponymic and informative basis of topographic maps in the adopted system of the scale series;
- Develop projects for geodetic binding of construction objects to the terrain on topographic plans and maps;
- To find technological solutions when creating three-dimensional models of the physical surface of the Earth, buildings and engineering structures;
- to formulate, according to the results of geodetic analysis, the content and factors of the formation of natural and man-made risks of local, regional and state scale;
- To carry out geodetic control in the conditions of the development of territories of megacities, characterized by intensive construction.
- summarize and provide a comparative assessment of the results of integrated and thematic monitoring in the geodetic analysis of spatial systems;
- to define the conceptual foundations of programming in the systems ENVI, ArcGIS, ArcMAP, ERDAS, Serfer and others
- to design thematic and large-scale series of forecast maps for economic planning and management decisions;
- to evaluate traditional and innovative methods and methods of spatial modeling with various volumes of geodetic information;
- to interpret and summarize modern scientific knowledge in the field of geodesy in the context of the leading directions of geodesy;
- integrate knowledge in the conduct of research and scientific and technical developments;
- to work in a team, in a research team, reasonably draw conclusions and convince them that they are right; demonstrate readiness for independent activities, communication with people in a formal and informal setting.
  Data for 2017-2020 years
  Data for 2017-2020 years
  Data for 2017-2020 years