PhD program
Cadastre

Cadastre

QUALIFICATION

  • Scientific and pedagogical direction - Doctor of Philosophy(PhD)

MODEL OF GRADUATING STUDENT

Осы білім беру бағдарламасы аяқталғаннан кейін докторанттар қабілетті болады деп күтілуде:
ON1. кадастр саласында қолданылатын заманауи аналитикалық және есептік зерттеу әдістерін түсіндіру;
ON2. кадастр мақсаттары үшін жер-кадастрлық және бағалау деректерін жинау және жүйелеу;
ON3. экономикалық, әлеуметтік, экологиялық жағдайларды ескере отырып, кадастр жүргізу кезінде оңтайлы шешімдерді іздеу үшін жер мен қоршаған ортаны мониторингілеу әдістерін қолдану;
ON4. заманауи компьютерлік технологиялардың көмегімен жер учаскелері мен жылжымайтын мүлік объектілері туралы ақпаратты жинауды, жүйелеуді, өңдеуді және есепке алуды жүргізу;
ON5. кадастрдағы оңтайландыру есептерін шешу үшін экономикалық-математикалық модельдеуді қолдану;
ON6. жер қорының санаттарын талдау және жер ресурстары жағдайының өзгеруінің қазіргі тенденцияларын бағалау;
ON7. қоршаған орта компоненттерінің жерді пайдалануға өзара әрекеттесуінің қауіптері мен тәуекелдерін бағалау;
ON8. жердің нашарлауының алдын алу үшін қазіргі заманғы модельдер негізінде қауіпті табиғи құбылыстардың пайда болуын болжау;
ON9. географиялық және жер-ақпараттық жүйелерде (ГАЖ және ЗАЖ)қазіргі заманғы деңгейде графикалық, кадастрлық және басқа да ақпаратты дайындау және қолдау тәсілдерін жетілдіру;
ON10. эксперименттік зерттеулер жүргізу және цифрлық кадастр және Инновациялық жобалау саласындағы зерттеулер мен жаңа әзірлемелердің нәтижелерін енгізуге қатысу;
ON11. ақпараттық технологиялардың көмегімен Жер ресурстарын кешенді басқарудың стратегиялары мен бағдарламаларын жасау, практикалық қызметте жаңа білім мен дағдыларды, оның ішінде кадастрмен тікелей байланысты емес білімнің жаңа салаларында пайдалану;
ON12. зерттеу тақырыбы бойынша ғылыми-техникалық ақпаратты жинау, өңдеу, талдау және жүйелеу үшін көптілді және көпмәдениетті қоғамда қарым-қатынас жасау үшін тілдік білімді пайдалану Құзыретті.
По завершении данной образовательной программы ожидается, что докторанты будут способны:
ON1. объяснять современные аналитические и расчетные методы исследования, используемые в области кадастра;
ON2. собирать и систематизировать земельно-кадастровые и оценочные данные для целей кадастра;
ON3. применять методы мониторинга земель и окружающей среды для поиска оптимальных решений при ведении кадастра с учетом экономических, социальных, экологических условий;
ON4. проводить сбор, систематизацию, обработку и учет информации о земельных участках и объектах недвижимости с помощью современных компьютерных технологий;
ON5. применять экономико-математическое моделирование для решения оптимизационных задач в кадастре;
ON6. анализировать категории земельного фонда и оценивать современные тенденции изменения состояния земельных ресурсов;
ON7. оценивать опасности и риски взаимодействия компонентов окружающей среды на землепользование;
ON8. прогнозировать возникновение опасных природных явлений на основе современных моделей для предотвращения ухудшения состояния земель;
ON9. совершенствовать способы подготовки и поддержания графической, кадастровой и другой информации на современном уровне в географических и земельно-информационных системах (ГИС и ЗИС);
ON10. проводить экспериментальные исследования и принимать участия во внедрении результатов исследований и новых разработок в области цифрового кадастра и инновационного проектирования;
ON11. составлять стратегии и программы комплексного управления земельными ресурсами с помощью информационных технологий, использовать в практической деятельности новые знания и умения, в том числе в новых областях знаний, непосредственно не связанных с кадастром;
ON12. компетентно использовать языковые знания для коммуникации в полиязычном и поликультурном обществе для сбора, обработки, анализа и систематизации научно-технической информации по теме исследования.
Upon completion of this educational program, it is expected that doctoral students will be able to:
ON1. explain modern analytical and computational research methods used in the field of cadastre;
ON2. collect and systematize land cadastral and valuation data for cadastre purposes;
ON3. apply methods of monitoring land and the environment to find optimal solutions when maintaining the cadastre, taking into account economic, social, environmental conditions;
ON4. to collect, systematize, process and record information about land plots and real estate objects using modern computer technologies;
ON5. apply economic and mathematical modeling to solve optimization problems in the cadastre;
ON6. analyze the categories of the land fund and evaluate current trends in the state of land resources;
ON7. assess the hazards and risks of interaction of environmental components on land use;
ON8. to predict the occurrence of natural hazards based on modern models to prevent the deterioration of land;
ON9. to improve the methods of preparation and maintenance of graphic, cadastral and other information at the current level in geographical and land information systems (GIS and VMS);
ON10. conduct experimental research and participate in the implementation of research results and new developments in the field of digital cadastre and innovative design;
ON11. develop strategies and programs for integrated land management using information technology, use new knowledge and skills in practice, including in new areas of knowledge not directly related to the cadastre;
ON12. competently use language knowledge for communication in a multilingual and multicultural society to collect, process, analyze and systematize scientific-technical information on the research topic.

Program passport

Speciality Name
Cadastre
Speciality Code
8D07306
Faculty
Geography and Environmental Sciences

disciplines

Academic writing
  • Number of credits - 2
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the course is the formation of the ability to develop the skills of written and oral speech activity in the geographical scientific field. The course is aimed at getting acquainted with the features of scientific communication, scientific and scientific-publicistic discourse, examines academic speech, features of the scientific style, basic principles and methods of selecting literature on the subject, scientific continuity and plagiarism, features of academic correspondence.

Cadastral valuation in the context of sustainable development of agriculture
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Cadastral valuation is an important tool for land management in agriculture, especially in the context of sustainable development. It allows you to determine the market value of land and assess the potential for the development of agricultural production. In this regard, the cadastral valuation is a key element in land use planning, the formation of land relations and the development of the agricultural economy as a whole. In addition, cadastral valuation can be used to improve land use and protect the environment, for example by determining the environmental value of land. When conducting a cadastral valuation, it is important to take into account the principles of sustainable development, such as the conservation of biodiversity, minimization of waste and the protection of human and animal health.

Scientific and methodological problems of the cadastre
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - "Scientific and methodological problems of the cadastre" is a field of study related to cadastral activities and covering various aspects of its methodology and scientific base. Cadastral activity plays an important role in ensuring legal relations and regulation of land resources. The study of laws, rules and regulations that govern cadastral activities. Analysis of current legal documents and their impact on the cadastral system. Study of modern technologies and methods used in cadastral activities, including geodesy, remote sensing, geographic information systems and other means of collecting and processing information. Consideration of issues of organizing and storing data in cadastral systems, ensuring their availability and security. Study of trends in the development of the cadastral system, including the prospects for the use of new technologies and methods. The study of the causes of errors in cadastral information, ways to eliminate them, as well as the analysis of cadastral disputes and ways to resolve them. Analysis of the comparative experience of various countries in the field of cadastre, the study of international standards and cooperation. Research in this area helps to identify problems and find optimal solutions for the development of cadastral infrastructure and sustainable use of land resources.

Scientific Research methods
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose of the course is the formation of the ability to apply the methodology of scientific research in geography in forming a dissertation. The course is aimed at getting acquainted with the logic of the process of scientific research, the classification of geographical methods of scientific research, the empirical and theoretical level of scientific research, setting and formulation of a scientific problem, the methodology of working on a manuscript of research, technology and organization of work on a dissertation.

Data for 2021-2024 years

disciplines

Geoinformation systems in territorial management and planning
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Geographic information systems (GIS) are software tools for collecting, storing, analyzing, displaying and using geographic data. In territorial management and planning, GIS are used to collect and process data on geographic features and processes such as land use, transportation infrastructure, environmental conditions, and population demographics. GIS allows you to analyze and visualize this data, which helps you make decisions based on more accurate and complete information. GIS can be used for mapping and analysis of the territory, land use planning, risk assessment of natural and man-made disasters, environmental monitoring, traffic management, accounting of urban infrastructure and other purposes. GIS can greatly improve decision making, reduce costs, and speed up planning and management processes.

Spatial development project management
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Spatial development project management includes the coordination of various aspects of the project, such as site selection, risk and potential obstacle analysis, development of construction plans and schedules, budget and project team management, work progress control, and results evaluation. The project management process also takes into account economic, social and environmental factors to ensure the sustainability and efficiency of the project in the long term. This may include the creation of new infrastructure facilities, the reconstruction of existing ones, the improvement of the urban environment, the development of the transport network, and other activities. Spatial development project management requires careful planning, risk assessment, resource and time management, and strong communication and coordination between the various project stakeholders.

Theory and methods of zoning territories for land management purposes
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The theory and methods of zoning territories are used to determine the optimal use of land resources in various zones. This allows you to effectively manage the land, taking into account its natural, climatic and economic characteristics. Zoning can take place at different levels, including global, regional, and local. Zoning methods may include the use of geographic information systems, mathematical modeling and environmental expertise. Zoning results are used to develop plans for land use, natural resource management and environmental sustainability. Zoning of territories for land management purposes is the process of dividing the land surface into relatively homogeneous areas, called zones, based on various factors such as natural conditions, geographical location, economic needs.

World experience in developing territorial and strategic planning schemes
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Foreign methods for developing a territorial planning scheme include various approaches and tools that are used to analyze, plan and manage a territory. Some of these methods include geodata analysis, geographic information systems, geospatial process modeling, and public participation methods in the planning process. Tools such as strategic environmental impact assessments, geographic information systems and economic modeling may also be used in different countries to support the planning process. In general, foreign methods make it possible to take into account various aspects, such as socio-economic, environmental and cultural factors, when developing a territorial planning scheme.

Data for 2021-2024 years

INTERNSHIPS

Pedagogical
  • Type of control - Защита практики
  • Description - Formation of practical, educational-methodical skills of conducting lectures, seminars, creatively apply scientific, theoretical knowledge, practical skills in teaching activities, conduct training sessions in the disciplines of the specialty; own modern professional techniques, methods of training, use in practice the latest theoretical, methodological advances, make educational, methodological documentation.

Research
  • Type of control - Защита практики
  • Description - The purpose of the practice: gaining experience in the study of an actual scientific problem, expand the professional knowledge gained in the learning process, and developing practical skills for conducting independent scientific work. The practice is aimed at developing the skills of research, analysis and application of economic knowledge.

Data for 2021-2024 years