Educational program

Training of qualified specialists in the field of geodesy and cartography, who are able to use scientific information to analyze and solve professional problems in the field of territorial development and mapping, construction and engineering surveys, natural resource management using modern methods and technologies

- Determine the position of lines on the ground; solve problems on scales;
- Use the instruments and tools used in the measurement of lines, angles and marks of points;
- To make large-scale maps and plans based on the results of topographic surveys and using other cartographic sources;
- Use the simplest graphic editors in practice, apply them in the design of drawings, maps and plans;
- Analyze field topographic and geodetic information, compare practical and calculated results;
- Analyze the information presented in the form of a graph, figure, to conclude about the nature of the change in the desired value;
- To analyze literary, stock and statistical sources of information on geographic toponymy; identify and analyze shortcomings in the structure of ethno-toponymic activity as a socio-economic phenomenon; identify and classify toponymic data; explain the basic concepts of geographical toponymy and methods of analysis;
- Analyze the state and development of natural, natural-anthropogenic and socio-economic complexes and carry out their visualization on paper and electronic media; analyze thematic cartographic image;
- Determine the factors and processes of formation of relief types;
- Use the table of symbols; draw symbols on plans and maps; make extra registration of maps and plans;
- Use the instruments and tools used in the measurement of lines, angles and marks of points;
- Use GIS hardware and software;
- To work with instruments and systems for photogrammetric processing of materials for aerial and satellite imagery and remote sensing data; process images at one of the digital photogrammetric stations;
- Solve applied problems in the field of professional activity; apply the basic methods of solving applied problems in the field of professional activity;
- Determine the coordinates of the boundaries of land and calculate their area;
- Determine the required accuracy of the performance of work on the basis of the initial gravimetric information (at the design stage of work), select devices suitable for operation; operate gravimetric equipment;
- Determine the required amount of material and technical resources for individual objects and in general for the program of work of a construction organization;
- Create a geodetic study for the construction of engineering structures in the form of a traverse or a system of moves;
- Analyze the effect of endogenous and exogenous geological processes on relief formation;
- Create databases and use Internet resources;
- It is correct to choose this or that device to perform measurements of different purpose and accuracy;
- Name the basic concepts and methods of mathematical analysis, discrete mathematics, probability theory and mathematical statistics;
- Choose the techniques needed to work on the design and creation of atlases; build atlas maps; extract geographic information from a map image; convert geographic information into a map view;
- Perform verification and adjustment of operation modes of electronic total stations;
- Choose thematic geographical maps and other cartographic images depending on the goals and nature of the activity; extract geographic information from a map image;
- Perform various types of geodetic works and pre-calculation of the required accuracy of their production and draw up an explanatory note to the project;
- Perform mathematical processing and analysis of multiple measurements of one magnitude and paired measurements;
- Use skills to work with information from various sources to solve professional problems, evaluate the effectiveness of GIS in solving geographic problems, as well as the limits of their capabilities;
- Use for work ready electronic databases of cartographic data;
- Use graphic software in practice, apply them in the design of drawings, maps and plans;
- Perform geodetic work to ensure the design and survey and construction activities;
- Plan and carry out high-precision satellite measurements and their mathematical processing; perform various types of surveys using satellite positioning equipment; create geodesic constructions using space geodesy methods (state geodetic network, special-purpose networks);
- Perform processing of topographic and geodetic measurements using specialized software systems;
- Identify and characterize the morphological and genetic type of terrain;
- To create and maintain at a high scientific and technical level the main reference satellite, astronomer-geodesic and leveling networks of the state;
design geodetic networks;
- Create databases and use Internet resources;
- Perform verification and adjustment of geodetic instruments; perform field geodetic measurements; process field measurement results;
- Use physical formulas to analyze functional dependencies between different physical quantities; determine the dimensions of physical quantities; use a mathematical apparatus to solve physical problems;
- Use collections of common standards of time and generation for geodetic and topographic works; determine labor productivity, number and qualification composition of brigades;
- To make complex norms of time for performance of work; to calculate the salary of the brigade when performing cartographic and geodetic works; to make estimates for the implementation of cartographic and geodetic works;
- To make outfits and cost estimates of labor and wages for workers; develop building construction schedules based on selected criteria;
- To use information and software complexes for data transmission from electronic total stations to a PC;
- Create thematic maps and atlases; arrange thematic cartographic image;
- Eliminate the technical malfunction of the geodetic instrument;
- Perform an analysis of methods for establishing coordinate systems on the surface of the earth's ellipsoid;
- To carry out special geodetic measurements in the operation of the surface and bowels of the Earth;
- To use modern technologies for determining the location of points of geodetic networks based on satellite navigation, as well as methods for electronic measurements of elements of geodetic networks;
- Use technologies and techniques of computer and engineering graphics, topographic and land use planning;
- Apply the methods of cartographic analysis and cartometry to study objects and phenomena on maps; apply basic skills of presenting graphic information (cartographic projections) in the required format;
- Apply modern surveying instruments; perform centering works, conduct geodetic control on surveys and various stages of the construction of railways;
- Process the results of gravimetric measurements; process and equalize gravimetric measurement data when creating networks;
- Apply technologies and methods of visual and instrumental interpretation of aerospace images;
- Perform primary mathematical processing of field geodetic measurements using modern computer programs, analyze and eliminate the causes of defects and gross measurement errors;
- To use modern technologies for obtaining field topographic and geodetic information for mapping the territory of the country and updating the existing cartographic fund, including geo-information and aerospace technologies;
- Perform field and office work on topographic surveys of the terrain, updating and creating originals of topographic plans and maps in graphic and digital form;
- Perform primary mathematical processing of measurement results and assess their accuracy;
- To use methods of digital photogrammetry and aerial and satellite imagery decoding technology;
- Make choices and apply various mapping methods; create different types of maps using traditional and digital methods; evaluate the quality of maps and other cartographic works;
- Make measurements on images; create maps based on aerospace information; create digital terrain models based on cartographic information;
- To use computer and satellite technologies to automate field measurements and create originals of topographic plans, to master innovative methods of topographic works;
- Collect, systematize and analyze topographic and geodetic information for the development of projects of survey work;
- Comply with the requirements of technical regulations and instructions for the implementation of topographical surveys and office design originals of topographic plans;
- Design geodetic networks; perform a set of field work to create reference geodetic networks with various methods and instruments;
- To conduct surveys of areas with the help of geodetic instruments and arrange them in the form of profiles, schemes, plans and thematic maps;
- Choose the techniques needed to work on the design and creation of atlases; build atlas maps; extract geographic information from a map image; convert geographic information into a map view;
- To use the results obtained by both traditional and satellite methods in solving problems of modern geodesy;
- To use modern technologies for determining the location of points of geodetic networks based on satellite navigation, as well as methods for electronic measurements of elements of geodetic networks;
- To use computer and satellite technologies to automate field measurements and create originals of topographic plans, to master innovative methods of topographic works;
- Understand and use the basics of computer literacy and design; methods and methods of compiling and designing maps; basics of computer layout of math-cartographic models;
- Develop activities and organize work on the creation of geodesic, leveling networks and networks for special purposes, topographic surveys, geodesic support for the construction and operation of buildings and engineering structures, topographic and geodetic support for the cadastre of territories and land management;
- Perform design and production of geodetic surveys of construction objects;
- To carry out the preparation of a geodetic base for the design and development of master plans for construction projects;
- Perform a complex of photogrammetric transformations of images to obtain special metric information; perform special types of interpretation;
- Distinguish between the basic laws of the formation of hydrological and hydrochemical features of aquatic ecosystems, conduct field hydrological observations using special instruments;
- Carry out works on the cartographic-geodesic provision of territories, create graphic materials;
- To develop flow charts for the production of construction processes with the use of integrated mechanization of work and advanced labor methods; design building master plans for individual buildings and structures;
- Perform geodetic survey work, field and office tracing of linear structures, vertical layout;
- To participate in the development and implementation of projects for the production of geodetic works in construction;
- To carry out field geodetic work at the construction site: carrying out in-kind building projects, engineering structures, carrying out measuring work and performing surveys, drawing up as-built documentation;
- Apply GIS to solve cartographic and applied tasks;
- To use technologies for collecting, systematizing, processing and accounting for remote sensing materials to obtain information about real estate objects;
- Use maps and other components of the atlas to obtain quantitative and qualitative indicators about objects and phenomena; solve problems of assessing the current state of the territory and changing the territory over time using atlas data;
- Use the methods of linking satellite geodetic networks to the general earth coordinate system and to the state altitude and planned basis;
- Use devices for decoding; recognize and classify the objects depicted in the picture, use aerospace methods in practice to solve various problems;
- Perform field control of the conservation of design geometry in the process of construction and installation works;
- To use special geodetic instruments and tools, including modern electronic tachometers and satellite navigation instruments, designed to solve the tasks of applied geodesy, to carry out their research, calibration and adjustment;
- Perform specialized geodetic work in the operation of engineering objects, including monitoring the deformations of buildings and engineering structures and hazardous geodynamic processes;
- Use technology and techniques of computer graphics, topographic and land use planning;
- Comply with the requirements of technical regulations and instructions for the implementation of topographical surveys and office design originals of topographic plans;
- Use state geodetic networks, thickening networks, survey networks, as well as special-purpose networks for cartographic and geodetic works;
- Create digital topographic plans of industrial facilities using CAD and GIS;
- To build and use cartographic models to describe and predict various phenomena in nature, the economy and social activities; convert geographic information into a map view;
- to plan and methodically ensure the conduct of studies and practices for the study of methods of geodetic measurements and calculations;
- analyze scientific reasoning, scientific discussions, own positions in relation to the theoretical analysis and conclusions in the field of geodesy and cartography;
- to formulate goals and objectives of scientific research for writing essays in the field of geodesy and cartography;
- build professional relationships with colleagues, be able to work in a team;
- provide information and organize round tables on contemporary problems in the field of geodesy and cartography;