• First Stage of Higher Education - Bachelor of Technics and Technologies

– to form an idea of geographic information systems;
– to identify theoretical principles of GIS mapping GIS-based mapping and databases;
– to form the basis of modern geoinformation and web technology for creating maps, software in the field of cartography, Geoinformatics and processing of aerospace images;
– describe General concepts of programming languages (C++, Python, R);
– classify types of software to work with vector graphics, raster graphics editors;
– identify the main technologies for obtaining remote sensing data
– make digital digital photogrammetric models available for use and update topographic and thematic maps;have an idea of the existing methodological techniques of automatic decryption
– to determine the methods of construction of cartographic signs using some General laws;
– to determine the principle of operation and efficiency of GLONASS and GPS satellite systems.
– independently determine the types of laser scanners, software for processing laser scanning data;
– explain modern GIS technologies in the preparation of electronic maps;
– own and apply GIS tools in practice;
– possess the technology of creating design styles in GIS packages, as well as map layout templates.
– define digital methods for creating 3D virtual maps;
– remember GIS structures and subsystems;
– explain how to build a DEM;
– determine the methods of digital image processing;
– to demonstrate the skills of solving the problems of situational analysis and modeling, as well as the skills of independent work with geographical data.
apply information technology to solve cartography problems;
– use aerospace imagery to provide thematic information on the status and changes of geographic features and mapping;
– apply the basic concepts and definitions of the theory of networks, to use the terminology modeling;
– use the tools of GIS packages to create design elements at all stages of creating a cartographic work;
– apply basic and additional elements in the preparation of cartographic works for different purposes;
– use modern surveying equipment and introduce innovative methods of filming in production;
– to introduce the production of three-dimensional laser scanning and apply the modeling facilities.
assess the quality of cartographic information obtained from satellite navigation systems and used for the design and mapping of various topics;
- use programming languages for spatial data processing, geoprocessing applications;
- integrate these methods with GIS and advanced geoprocessing workflows through ArcGIS and statistical data environments;
- create Web-pages based on hypertext markup language HTML; make the terms of reference for the future Web-site;
- use modern surveying equipment and devices in the production of cartographic products;
- to work in a graphical 3D Modeler;
- use the software when working with geo-images and cartographic basis;
apply digital methods to create 3D virtual maps;
- to distinguish features and purposefulness of use of methods of creation of 3D virtual cards at various automation of technological processes of the cartographic analysis;
- identify the General logic of the task, control the flow of actions and syntactic functions;
- create Web pages based on HTML hypertext markup language;
- to create a Web site using JavaScript;
- to apply the methods of building LAN and WAN networks;
- search, select and import remote sensing data from various sources (Internet resources, data catalogs.
- analyze the characteristics and applications of raster, vector and fractal graphics;
- analyze font properties, font requirements and their role on the map;
- classification and font formats, features of color perception;
- use modern surveying equipment and introduce innovative methods of laser removal in production;
- independently use theoretical knowledge of three-dimensional laser scanning and object modeling.
work with database design and project management tools;
– to possess and be ready to apply knowledge in the field of Informatics;
– to use digital photogrammetry to solve applied problems, to collect information data, to use the creation of 3D virtual maps for the design and mapping of General geographic and thematic focus;
– effectively apply various methods of analysis and synthesis of spatial information in cartographic modeling.
– to make predictive maps of natural and man-made risks for management decision-making;
– create a new primitive model of the existing blanks by Ungroup-groups parts of the models and their modifications;
– to formulate the basis of regional, national and local cartographic monitoring and methods of implementation of environmental monitoring and control systems;
– create digital terrain models and use them to create and update topographic and thematic maps.
design and deploy data warehouses;
– create cartographic databases and data banks;
– develop cartographic design of digital maps;
– create graphic objects to solve educational and creative tasks;
– create databases and use "Internet" resources for mapping thematic maps and atlases.
– design high-precision satellite measurements and perform their processing with the help of special applications.
– have a basic knowledge of computer and multimedia technologies;
– develop and complete a geographic database; to compose the graphical output of map image, which is of great importance for efficient information perception;
– create cartographic databases and data banks for digitizing objects;
– own and be ready to use GIS tools in practice;
– to assess the reliability of the results, to possess the skills of recognition of objects on the earth's surface;
to practice the creation of cartographic databases and data banks, to develop cartographic design of digital topographic maps;
– compile and edit General geographic and thematic maps, atlases and other types of cartographic works using geographic information and publishing technologies;
– to apply the skills of using software and work in computer networks to solve practical problems, to be able to create databases and use the resources of the information and telecommunication network "Internet";
– to formulate the basis of regional, national and local cartographic monitoring and methods of implementation of environmental monitoring and control systems.
– to formulate a problem in the process of using modern electronic devices to solve various problems;
– program sites by various software tools;
– work with multimedia on a Web page;
– training in theoretical, methodological and algorithmic foundations of geophysical processes;
– to develop stages and approaches of computer and information systems modeling.