7М7307 – Вig Data in Geodesy

Educational program

7М7307 – Вig Data in Geodesy

Field of education

7M07 Engineering, manufacturing and construction industries 

Direction of personnel training

7M073 Architecture and Construction 

Group of educational programs

M123 Geodesy

EP purpose

Training of qualified personnel in the field of geodesy, construction and education, who have critical thinking, modern methodology of interdisciplinary research, the ability of applied modeling with big data. The implementation of the educational program is aimed at the formation of the personality of a specialist capable:

- represent design schemes of structures and determine efforts in statically indeterminate systems, apply knowledge about the current state of science about the reliability and safety of structures in numerical, mathematical and probabilistic methods calculation of structures;

- Analyze the sources of modern geodetic instruments and technologies, apply new devices when surveying geodetic coordinates on the terrain, depending on the location of geodetic coordinates of points;

- analyze big data to make optimal decisions in the process of construction of buildings and structures in application programs;

- Be able to develop projects for the production of geodetic works, monitor natural resources;

- plan actions, evaluate the implementation of plans in real time, assess risks to identify unprofitable and profitable areas of the organization's activities, based on the analysis of a large amount of internal and external information.

Language of education

 Kazakh, Russianб English 


Volume of the credits

120 academic credits

The awarded academic degree


Educational outcome

1. apply in-depth knowledge about the current state and trends in the development of scientific knowledge in the field of information modeling of building structures and in the organization of construction production.

2. develop calculation models for simulating emergency situations in the information modeling of construction objects and critically assess the level of development of the construction industry.

3. to find and apply simulation solutions to the scientific problem of spatial data and algorithms of optimal solutions for processing big data in construction modeling, taking into account the survivability of building structures and the analysis of the life cycle of a construction object.

4. Apply cloud technologies for big data analytics to solve the scientific problem of the construction industry, taking into account the visualization of graphical data and machine learning in construction.

5. to set and solve applied problems in the production of engineering and geodetic surveys in relation to the study of emergency situations in construction.

6. to justify the organization of project work in a BIM environment, taking into account the intellectual analysis of big data and machine learning in the construction of buildings and structures.

7. apply computer modeling methods to justify the safety of operation of construction objects and search for optimal solutions in construction design.

8. apply digital control and design technologies in construction in accordance with the regulatory and technical documentation for construction and cloud technologies for big data analytics.

9. perform the calculation of buildings and structures using the finite element method, probabilistic and mathematical modeling for solving research and applied construction problems.

10. Perform Business Intelligence modeling options when processing big data in construction.

11. apply traditional and innovative educational methods and technologies for teaching technical disciplines related to construction engineering in higher education.

12. work in a team, in a scientific team, make reasoned conclusions and convince of their rightness, be able to work independently, communicate with people in an official and unofficial environment.

For applicants


 Academic activity

 Academic activity of the EP is carried out:

- within the framework of existing regulatory documents and methodological recommendations in the field of higher education in the field of geodesy sciences;

- as a result of the implementation of regulatory documents regulating the educational and methodological process at the university;

- generalization and dissemination of new normative legal acts concerning methodological work;

- current and long-term planning of the educational and methodological work of the university; coordination of the educational and methodological complex of the discipline (EMCD) of the department for compliance with regulatory legal acts, the working curriculum and the educational program;

- monitoring the provision of the educational process with teaching materials, documenting the results;

- development of teaching materials; development and implementation of the working curriculum.

 Scientific activity

 For the implementation of the educational program at the faculty there are laboratories:

"Geoinformation Mapping"

"Geoinformatics and Remote Sensing"

"Center for Geoinformatics and Young Scientists"

"Geodesy and Cartography"

Siemens industrial controllers laboratory.

CISCO network academy laboratory.

Internet of Things laboratory

HP Laboratory.

Perco Security Systems Laboratory.

Laboratory of networking equipment Alcatel.

Laboratory of IS security (Kaspersky).


Scientific directions of the Department of Cartography and Geoinformatics:

- geographic information systems;

- applied geodesy;

- Earth remote sensing;

- digital cartography.

 International activity

Master's students students do research internships at such universities as the Technical University of Dresden, Studgart Technical University of Germany, Copenhagen University of the Kingdom of Denmark, Beuth University of Applied Sciences of Germany, Michigan Technological University of the USA, Moscow State University of Geodesy and Cartography.

Teachers of the educational program take internships, courses abroad to exchange experience, gain new competencies, and joint research activities.

 Quality assurance (Accreditation, rating, work with employers)

 International and  national accreditation

For the future employment of graduates of the program, key employers are: 

1. GMC «Kazgeodesiya»;

2. GMC «National Cartographic and Geodesic Fund»;

3. GMC «Kazgeokart»;


5. Corporation «Metrokurylys»;

6. Corporation NAC «KazAtomprom»;

7. Corporation «ТNC Kazhrom»;

8. «Karashyganak Petroleum Operation »;

9. Entrepreneurship Development Fund «DAMU»;

10. Association «KAZENERGY»;

11. Corporation «Tengizshevroil»;

12. Oil service company «Baker Hughes»;

13. Corporation «Kazakhstan GIS Center»;

14. LLP «Institute of Ionosphere»;

15. LLP «Institute of Space Technology and Technology» etc.


The educational program is relevant for a specific area of employment:

- Production (enterprises of construction, mining industry, oil and gas transportation);

- Social (education, ecology, services of various public and private organizations).