The Objective of the department is to execute academic education in the area of Industrial Engineering in accordance with Air Force Academy’s general and specific purposes under the present laws, regulations and directives.
The Objectives of the department is to plan, coordinate and apply all Industrial Engineering Department Courses at TUAFA and to arrange programs under the needs of Turkish Air Force and finally to evaluate cadets and contribute to Turkish Air Force projects.
Industrial Engineering is an engineering branch which uses insufficient resources efficiently and connects its engineering infrastructure with the system concept.
Since 1991, Industrial Engineering undergraduate program has been put into practice at TUAFA.
The second lieutenant graduates of the Air Force Academy Industrial Engineering Department are classified according to the needs of the Air Force and they use their knowledge of engineering analysis and design methods with math, computer, and natural sciences to establish systems in every unit of the Air Force and even in the Armed Forces.
The objective of the Industrial Engineering Department education given by the dean of faculty is to train candidate pilot officers who have the knowledge of engineering to work in every unit of the Air Force, who are loyal to Atatürk’s principles, and who have the quality of leadership and ready to adapt themselves to the requirements of the modern day.
If they wish, the graduates may go on their master and PhD education both in and out of the country to work in the required fields of the Air Force.
 |
|
No |
Code |
Course |
Duration |
|
1 |
END 312 |
TECHNOLOGY MANAGEMENT |
(2 0 1) |
|
2 |
END 372 |
MANAGEMENT INFORMATION SYSTEMS |
(2 0 1) |
|
3 |
END 404 |
MATHEMATICAL PROGRAMMING |
(2 1 0) |
|
4 |
END 406 |
DISCRETE OPTIMIZATION |
(2 1 0) |
|
5 |
END 408 |
HEURISTIC SEARCH AND ARTIFICIAL INTELLIGENCE |
(2 1 0) |
|
6 |
END 412 |
INDUSTRIAL SYSTEMS ANALYSES AND EVALUATION |
(2 1 0) |
|
7 |
END 414 |
SUPPLY CHAIN MANAGEMENT |
(2 1 0) |
|
8 |
END 422 |
SCHEDULING |
(2 1 0) |
|
9 |
END 424 |
GROUP TECHNOLOGY AND FLEXIBLE MANUFACTURING SYSTEMS |
(2 1 0) |
|
10 |
END 425 |
COMPUTER INTEGRATED MANUFACTURING SYSTEMS-I (CIM-I) |
(2 0 0) |
|
11 |
END 426 |
COMPUTER INTEGRATED MANUFACTURING SYSTEMS-II (CIM-II) |
(1 0 2) |
|
12 |
END 427 |
INVENTORY CONTROL |
(2 0 0) |
|
13 |
END 428 |
MANUFACTURING RESOURCES PLANNING |
(2 1 0) |
|
14 |
END 429 |
JUST IN TIME (JIT) MANUFACTURING |
(2 0 0) |
|
15 |
END 432 |
NEW PRODUCT DEVELOPMENT |
(2 1 0) |
|
16 |
END 434 |
PLANNING PRODUCTION SYSTEMS |
(2 1 0) |
|
17 |
END 438 |
MAINTENANCE PLANNING |
(2 1 0) |
|
18 |
END 452 |
STATISTICAL DECISION MAKING |
(2 1 0) |
|
19 |
END 454 |
QUEUEING THEORY |
(2 1 0) |
|
20 |
END 456 |
STOCHASTIC PROCESSES |
(2 1 0) |
|
21 |
END 462 |
SYSTEM DYNAMICS |
(2 1 0) |
|
22 |
END 463 |
PRODUCTION SYSTEMS SIMULATION |
(2 1 0) |
|
23 |
END 464 |
DYNAMICS OF SOCIO-ECONOMIC SYSTEMS |
(2 1 0) |
|
24 |
END 466 |
SIMULATION SOFTWARES |
(2 0 1) |
|
25 |
END 471 |
PRODUCTION KNOWLEDGE SYSTEMS |
(1 0 2) |
|
26 |
END 482 |
QUALITY ASSURANCE IN PRODUCTION |
(2 1 0) |