Automation and control
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Head of the Department Jumaev Odil
Abdudzhalilovich Reception hours: every working day (from 10:00 to 12:00) Telephone: (+998 90) 739-52-16
E-mail: jumaev5216@mail.ru |
In accordance with the Decree of the Academic Council
of the Navoi State Mining Institute No. 6 dated March 26, 2003 and the Rector’s
Decree No. 28 of April 3, 2003, further improvement of the educational process
in the field of “Automation and Control”. In order to further improve the
management structure, a department was created Automation and control".
In the 2011-2012 academic year, students were not
accepted on the instructions of "Automation and Control", but in the
direction of "Automation and control of technological processes and
production." Therefore, in accordance with the decision of the Academic
Council of the Institute dated August 28, 2011, the name of the department was
renamed “Automation and control of technological processes and production”. On
August 29, 2016, by the decision of the Academic Council of the Institute No.
1, the name of the department was called “Automation and Control”.
In the 2018-2019 school year, the department’s
workload is 15,795 hours. This training program includes 7 employees.
Currently, the department has 4 candidates of science,
associate professors, 3 senior lecturers and 4 associate professors and 5
professors.
Bachelor degree
Master's degree:
1. Basics of automation and control
2. Algorithmic and practical programming
3. Electrical Engineering and Electronics
4. Technological basis of control
5. Algorithm calculation methods
6. Elements and devices of control systems
7. Theory of automatic control
8. Basics of modeling and optimization of
technological processes.
9. Industrial automation and telemechanics
10. Devices
11. Automated electromechanical systems
12. Design, installation and commissioning of
automation systems
13. Identification of technological processes
14. Automation of technological processes
15. Technical means of automation
16. Engineering programs
17. Metrology and standards
18. Computer systems and networks
19. Management Theory
20. Safety rules
21. Microprocessor automation equipment
22. Diagnostics and reliability of automation systems
23. Automation and modeling of technological processes
(CT)
Master's degree:
1. Reporting systems
2. Theory of technological processes
3. Multi-level control systems
4. Automated control systems and management
5. Methods of teaching specialty subjects
6. Intellectual control systems and decision making
7. Principles of Mechatronics
8. Optimal and adaptive control systems
Eshmurodov
Ziyodullo Oripovich
Urinov Sherali
Raufovich
Botirov Tulkin
Vafakulovich
Sattorov Olim
Usmankulovich
Boibutaev
Sanzhar Boibutaevich
Kadyrov
Y. Bakhodirovich
Boboev Azizzhon
Azimyanovich
Boeva Okila
Husanovna
Ismoilov
Muhiddin Tulkin oglu
Akhmatov
Abdumalik Abduvakhob
Scientific and methodical work of the department:
2015-2016:
2 A total of 156 million. (A-5-033) Development of
automation algorithms and software for managing basic coal enrichment processes
and developing intermediate methods and software for the synthesis of optimal control
systems for A-5-035 rocks “) The research project was completed;
1,150
million (I-2015-2-22 Development and implementation of reliable mobile
information with high technology household gas meters).
Currently, the research laboratory conducts 2 innovative
and 1 feasible research projects, which should be completed in 2017-2018 (total
cost - 470 million Soums). Mathematical models of structures and structures
developed during project development and software tools for laboratory
instruments are being developed.
In the scientific laboratory, three members of the
department are associated with their doctoral theses, and four researchers
conduct research on the diplomas of Ph.D.
About NMMC ICHB NGMK problems:
Development of automated optimization and adjustment
systems for power steering;
Development of mathematical models for the study of
energy regimes of high-energy furnaces;
Development and maintenance of a mathematical model of
static trajectories to compensate for the reactive power of superheated steel
furnaces.