673

SCHOOL OF CIVIL AVIATION

School of Civil Aviation was established in 1986 to provide qualified personnel for rapidly growing Turkish Aviation industry. The School was the first educational and training organization in Turkey to meet all the requirements by the International Civil Aviation's Standards. Currently there are five departments; Avionics, Air Traffic Control, Flight Training, Aviation Management, Airframe-Powerplant Maintenance. Students completing the required courses of study in these programs (all five years, including one-year- English Preparatory School) receive a Bachelor's Degree upon graduation. Since there are a large number of career opportunities throughout the aviation industry, our graduates can easily find jobs.

School of Civil Aviation offers an intensive combination of theoretical and laboratory courses in well designed and equipped facilities. The School has its own Airport with 2600 m long illuminated runway, which is equipped with ILS, VOR, NDB and DME. It operates a fleet of 20 aircraft for in-flight laboratory teaching, a maintenance center for repairing various types of aircrafts.

The School has been supported by national and international aviation institutions and has mutual cooperation between several aviation industries. It also provides special programs to offer in-service training to air traffic controllers, pilots and technicians for state-owned and private aviation sectors.

Director : Prof. Dr. Mustafa KARA

Deputy Director : Asst. Prof. Dr. Hatice KÜÇÜKÖNAL

Deputy Director : Asst. Prof. Dr. Hakan OKTAL

Secretary of High School : Ibrahim KÖSE

STAFF

Professors: Hidayet BUGDAYCI, Mustafa CAVCAR, Mustafa KARA, T. Hikmet KARAKOÇ Assistant professors: Müge ARMATLI, Özlem ATALIK, Ünal BATTAL, Necip Suat CANARSLAN, Aydan CAVCAR, Gökhan DURMUS, Hülya ERGÜL, Ender GEREDE, Gülay IYIBAKANLAR, Ayse KAHVECIOGLU, Ergün KAYA, M. Murat KOÇYIGIT, Hakan KORUL, Vildan KORUL, Hatice KÜÇÜKÖNAL, Hakan OKTAL, A. Akile TANATMIS, Dilek TURAN, Öznur USANMAZ Lecturers: Füsun ADAR, Hakan AYDEMIR, Sema BATTAL, Tulga Metin CANDAS, Ertan ÇINAR, Nalan ERGÜN, Emin ERTAS, Gülcan GÜNAY, M. Selçuk IRDE, Nihat KARAGÖZ, Nevzet KAYA, Sema KUTLU, Hasan LIK, Osman ODABASI, Mustafa ÖZEN, Süleyman ÖZMEN, Hasan TIFTIK, Orkun TUNÇKAN, Ugur TURHAN, Suat USLU, Nevin YAVUZ, Nilgün YILDIRIM Research Assistants: Tolga BAKLACIOGLU, Cem ÇETEK, Serdar DALKILIÇ, Devrim GÜN, Yasemin ISIK, Hasim KAFALI, Sinem KAHVECIOGLU, Adem KARCI, Emre KIYAK, Ferhan KUYUCAK, Ilkay ORHAN, Asuman ÖZGER, A. Emre SARILGAN, Özlem SAHIN, Yusuf SENGÜR, Enis Turhan TURGUT, Alper ULUDAG, Kadriye YAMAN

DEPARTMENT OF AIR TRAFFIC CONTROL

The School of Civil Aviation was established as a vocational school in 1986 to provide qualified personnel for rapidly growing Turkish Aviation industry with funds provided by the Turkish Government, United Nations Development Programme and International Civil Aviation Organization. Through a bilateral agreement that was signed between French and Turkish Governments in 1989, French Government has provided a long-term loan of 115 million French Francs for the development of the School of Civil Aviation. About 70 faculty members and technical staff from the School of Civil Aviation attended academic, research or non-degree programmes of French aviation training institutions like IAS, SUPAERO, ENAC, ENSICA and EMA. Some other faculty members and technical staff have been trained by French aviation companies like SOFREAVIA SERVICE, THOMSON-CSF, SOCATA and EUROCOPTER. In 1992, the school started to provide Bachelor's Degree programmes due to the advancements in aeronautical technology and aviation education standards. All the students of academic degree programmes have to attend one year English language preparation classes before starting their four year training at the school. The School has a Maintenance Center which has an indoor area of 7.500 squaremeter to practice students on aircraft and an apron of 11.000 squaremeter. The Center is equipped with computer controlled instruments to repair various types of aircrafts in fleets of aviation companies.

674

Beyond academic instruction activities The School also provides non-degree programmes to train air traffic controllers to meet the needs of organizations such as Turkish General Directorate of State Airports. These courses are custom designed according to the needs of demanding organizations.Presently, there are four full-time faculty members and three research associates and five teaching air traffic controllers working with the Department. Moreover brifing office and tower which are organize all activites of Anadolu Airport has nine members. Furthermore, some faculty members from other departments in our university and from other universities also work as adjunct faculty members in our department. Currently there are 43 undergraduate students in the Department. Moreover there 5 student who are attending postgraduate programs which is awarded by the Graduate School of Social Sciences. Nowadays a new postgradute program is held by the Graduate School of Science for the Department. Department of Air Traffic Control selects 10 students through the specific selection procedures including Aptitude Tests.

Department of Air Traffic Control has design of flight path (PANS-OPS) laboratory. A THOMSON-CSF ATS Radar Simulator based on Simcat 1000 with 4 controller, 4 pseudo pilot and a supervisor position is used as the practical training tool of this programme. Each academic staff member of the department is given a personal computer for her/his own exclusive use. A computer laboratory equipped with 32 personal computers, which are connected to the Internet, is open to our students. Another computer laboratory which has 36 personal computers and a data show system is used for seminars and educational purposes. In addition, the School's conference hall of capacity of 110 which is fully equipped can be used by the Department at any time.

Qualified personnel meeting ICAO and EUROCONTROL standards have been trained by air traffic control training programmes. Our graduates can easily find job opportunities in Turkish General Directorate of State Airports and throughout other airports.

PROGRAM

I. SEMESTER FIZ 305 Space Physics 3+0 4,5 HTK 101 Aircraft Basic Knowledge 4+0 6,0 MAT 167 Fundamental Mathematics 3+0 4,5 SHU 102 Meteorology 3+0 4,5 HYO 107 (Eng) Airport and Airport Equipment 3+0 4,5 ING 113 (Eng) English Speaking Skills I 4+0 6,0

30,0

II. SEMESTER HTK 205 Communication and Navigation

Systems 3+0 4,5 HTK 216 Air Traffic Rules and Services 5+0 7,5 BIL 151 (Eng) Fundamentals of Information

Technology 2+2 4,5 HYO 104 (Eng) Introduction to Civil Aviation 3+0 4,5 ING 114 (Eng) English Speaking Skills II 4+0 6,0 Elective Course (1) - 3,0

30,0

III. SEMESTER BIL 162 Introduction to Computer

Programming 2+2 4,5 HTK 202 Aerodrome Control Procedure 4+0 6,0 HTK 207 Aircraft Performance 2+0 3,0 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0 TÜR 103 Turkish Language 4+0 6,0 HTK 213 (Eng) Air Traffic Communication I 2+2 4,5 Elective Course (1) - 3,0

30,0

IV. SEMESTER HTK 206 Aviation Terminology 2+0 3,0 HTK 212 Non-Radar Control Procedures 5+0 7,5 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0 HTK 204 (Eng) Phraseology 3+0 4,5 HTK 210 (Eng) Aerodrome Control Simulation 4+4 9,0 HTK 214 (Eng) Air Traffic Communication II 2+0 3,0

30,0

V. SEMESTER

HTK 301 Navigation 3+0 4,5 HTK 309 Instrument Flight Procedures 4+2 7,5 HTK 313 Human Factors 4+0 6,0 HTK 311 (Eng) Non Radar Approach Control

Simulation 4+2 7,5 Elective Course (1) - 4,5

VI. SEMESTER HTK 306 Radar Technology 4+0 6,0 HTK 312 Aeronautical Communications 2+0 3,0 HTK 401 Radar Control Procedures 4+0 6,0 HTK 406 Aviation Psychology 3+0 4,5 HYO 310 Aeronautical Information

Publication 2+0 3,0

675

30,0

HTK 310 (Eng) Non Radar Area Control Simulation 4+2 7,5

30,0

VII. SEMESTER HTK 409 Civil-Military Air Traffic

Coordination 2+0 3,0 HTK 415 Air Traffic Flow Management 3+0 4,5 HTK 419 Regional Air Traffic Control

Operations 3+0 4,5 HTK 413 (Eng) Radar Approach Control

Simulation 4+2 7,5 HTK 414 (Eng) Radar Area Control Simulation 4+2 7,5 Elective Course (1) - 3,0

30,0

VIII. SEMESTER HTK 408 Air Traffic Management 3+0 4,5 HTK 418 Airspace Organization 2+0 3,0 HTK 420 Flight Safety Management 3+0 4,5 HTK 498 Applications of Air Traffic

Control 0+6 4,5 HTK 416 (Eng) Radar Traffic Coordination 4+2 7,5 Departmental Elective Course

(1) - 3,0 Elective Course (1) - 3,0

30,0

DEPARTMENTAL ELECTIVE COURSES HTK 412 Modern Instrument Systems 2+0 3,0 HTK 452 Helicopter Theory 2+0 3,0 ELECTIVE COURSES BEÖ 155 Physical Education 2+0 3,0 HUK 252 Labor Law 2+0 3,0 HYO 105 (Eng) Air Transportation Management 3+0 4,5 HYO 303 Model Aircraft Constmetion 1+2 3,0 ILT 307 Communication 3+0 4,5 IST 201 Statistics 3+0 4,5

ISL 102 Management and Organization 3+0 4,0 MÜZ 155 Turkish Folk Music 2+0 3,0 MÜZ 157 Traditional Turkish Art Music 2+0 3,0 SAG 102 First Aid 2+0 3,0 SER 246 Fundamentals of Ceramics 3+0 4,5 SNT 155 History of Art 2+0 3,0 SOS 155 Folkdance 2+0 3,0 SOS 312 Organizational Behavior 3+0 4,5

DEPARTMENT OF AIRFRAME AND POWERPLANT MAINTENANCE

The School of Civil Aviation was established as a vocational school in 1986 to provide qualified personnel for rapidly growing Turkish Aviation industry with funds provided by the Turkish Government, United Nations Development Programme and International Civil Aviation Organization. Through a bilateral agreement that was signed between French and Turkish Governments in 1989, French Government has provided a long-term loan of 115 million French Francs for the development of the School of Civil Aviation. About 70 faculty members and technical staff from the School of Civil Aviation attended academic, research or non-degree programmes of French aviation training institutions like IAS, SUPAERO, ENAC, ENSICA and EMA. Some other faculty members and technical staff have been trained by French aviation companies like SOFREAVIA SERVICE, THOMSON-CSF, SOCATA and EUROCOPTER. In 1992, the school started to provide Bachelor's Degree programmes due to the advancements in aeronautical technology and aviation education standards. All the students of academic degree programmes have to attend one year English language preparation classes before starting their four year training at the school. The School has a Maintenace Center which has an indoor area of 7.500 squaremeter to practice students on aircraft and an apron of 11.000 squaremeter. The Center is equipped with computer controlled instruments to repair various types of aircrafts in the fleets of aviation companies. Beyond academic instruction activities The School also provides non-degree programmes to train helicopter maintenance technicians to meet the needs of organizations such as the Police. These courses are custom designed according to the needs of demanding organizations. The School is already training Turkish Air Force Depot Level Maintenance Centres' Aircraft Maintenance Technicians for upgrading the Turkish Air Force to JAR145 standards.

Department of Airframe and Powerplant Maintenance was first established as two departments; Department of Aircraft Airframe and Department of Aircraft Powerplant. When The School changed its programs to graudate level both Departments had a new concept and got new names as Department of Airframe Maintenance and Department of Powerplant Maintenance. According to new trends in aviation industry and education and to meet the international standards two Departments organized as one and had a new name; Department of Airframe and Powerplant Maintenance, in 1995.

676

Presently, there are eight full-time faculty members, four research associates, nine research assistants and five teaching maintenance technicians working with the Department. Furthermore, some faculty members from other departments in our university and from other universities also work as adjunct faculty members in our department. One of the research assistants is currently on leave for studying abroad as a graduate student. Currently there are 139 undergraduate students in the department. Moreover there 8 student who are attending postgraduate programs which is awarded by the Graduate School of Sciences. Twenty students for the Department of Airframe and Powerplant Maintenance are selected through the National Students' Placement Exam.

There are plenty of laboratories in the Department such as aerodynamics, hydraulic systems, materials and airframe, CAD/CAM and model aircraft which are used in training and research activities. In addition Department has workshops such as motor, turbo jet motor and test cell. Each academic staff member of the department is given a personal computer for her/his own exclusive use. A computer laboratory equipped with 32 personal computers, which are connected to the Internet, is open to our students. Another computer laboratory which has 36 personal computers and a data show system is used for seminars and educational purposes. In addition, the School's conference hall of capacity of 110 which is fully equipped can be used by the Department at any time.

Qualified personnel meeting JAR 66 standards have been trained by airframe and powerplant maintenance programme. Our graduates can easily find job oppurtinities in Turkish Airlines, Turkish Air Force Air Supply Maintenance Centers and throughout the aviation industry. We have graduates and undergraduates attending to Department of Airframe and Powerplant Maintenance programmes from other nations such as Azerbaijan, Bulgaria, Germany, Greece, Jordan, Kazakhstan, Kirghistan, Syria, Switzerland, Tadjikistan and Turkmenistan.

PROGRAM

I. SEMESTER FIZ 105 Physics I 4+0 6,0 FIZ 107 Physics Laboratory I 0+2 1,5 HYO 109 Basics of Aircraft 4+0 6,0 MAT 159 Calculus I 2+2 4,5 MAT 163 Linear Algebra 2+0 3,0 ING 153 (Eng) Advanced English I 4+0 6,0 Elective Course (1) - 3,0

30,0

II. SEMESTER MAT 160 Calculus II 2+2 4,5 MEK 152 Mechanics 3+0 4,5 TÜR 103 Turkish Language 4+0 6,0 BIL 151 (Eng) Fundamentals of Information

Technology 2+2 4,5 HYO 104 (Eng) Introduction to Civil Aviation 3+0 4,5 ING 154 (Eng) Advanced English II 4+0 6,0

30,0

III. SEMESTER

ELE 201 Electric Electronic Circuits 3+1 4,5 HYO 201 Communication and Navigation

Systems 2+0 3,0 HYO 209 Aviation Legislation 2+0 3,0 MAT 208 Differential Equations 3+0 4,5 MLZ 217 Science of Aircraft Materials 2+0 3,0 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0 TRS 113 Technical Drawing and

Perspective 2+2 4,5 ING 221 (Eng) Aviation English I 3+0 4,5

30,0

IV. SEMESTER BIL 257 Computer Programming 2+2 4,5 HYO 202 Thermodynamics 2+2 4,5 HYO 210 TUSAS Program 4+10 13,5 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0 ING 222 (Eng) Aviation English II 3+0 4,5

30,0

V. SEMESTER VI. SEMESTER

677

HYO 206 Aircraft Electrical Systems 2+0 3,0 HYO 207 Aircraft Instruments 2+0 3,0 HYO 304 Aircraft Manufacturing

Technologies 3+0 4,5 UGB 305 Airframe Workshop I 0+6 4,5 UGB 309 Aircraft Structures and Airframe

Systems I 2+2 4,5 HYO 301 (Eng) Fundamentals of Aerodynamics 3+2 6,0 Elective Course (1) - 4,5

30,0

HYO 314 Human Performance and Limitations 3+0 4,5 MEK 304 Flight Mechanics 3+2 6,0 UGB 310 Aircraft Structures and Airframe

Systems II 3+0 4,5 UGB 403 Airframe Workshop II 0+4 3,0 UGB 405 Nondestructive Inspection Methods 2+0 3,0 UMB 316 Aircraft Gas Turbine Theory 3+0 4,5 Elective Course (1) - 4,5

30,0

VII. SEMESTER

HYO 302 Aircraft Maintenance and Overhaul 3+0 4,5

HYO 406 Helicopter Theory and Systems 3+0 4,5 UMB 301 Reciprocating Engines 4+0 6,0 UMB 401 Gas Turbine Engine Systems 2+1 3,0 UMB 403 Powerplant Workshop I 0+6 4,5 HYO 204 (Eng) Propeller Theory 2+0 3,0 Departmental Elective Course

(1) - 4,5

30,0

VIII. SEMESTER ELE 301 Electrical Machinery 2+2 4,5 HEE 410 Aircraft Electricity Workshop 0+3 3,0 HYO 410 Applications of Powerplant-Airframe

Maintenance 0+6 4,5 HYO 412 Maintenance Practice Methods 0+3 3,0 SHU 424 Aircraft Maintenance and Reliability

Management 3+0 4,5 TKY 304 Quality Assurance Systems 2+0 3,0 UMB 306 Power plant Workshop II 0+4 3,0 Departmental Elective Course (1) - 4,5

30,0

DEPARTMENTAL ELECTIVE COURSES HYO 105 (Eng) Air Transportation Management 3+0 4,5 HYO 306 Computer Aided Design 3+0 4,5 HYO 312 Modern Instrument Systems 3+0 4,5 HYO 404 Advanced Aircraft Electrical

Systems 3+0 4,5 UGB 308 Composite Materials 3+0 4,5 UGB 408 Fracture Mechanics 3+0 4,5 UMB 310 Fuel Systems of Gas Turbine

Engines in Aircraft 3+0 4,5 UMB 442 Repair Process on Aircraft

Engine 3+0 4,5 UMB 452 The Application of Gas

Turbine's for Cogeneration 3+0 4,5 ELECTIVE COURSES BEÖ 155 Physical Education 2+0 3,0 HYO 303 Model Aircraft Constmetion 1+2 3,0

IKT 151 (Eng) Economics 3+0 4,5 ILT 307 Communication 3+0 4,5 IST 201 Statistics 3+0 4,5 ISL 102 Management and Organization 3+0 4,0 MUH 453 Cost Accounting 3+0 4,5 MÜZ 155 Turkish Folk Music 2+0 3,0 MÜZ 157 Traditional Turkish Art Music 2+0 3,0 NÜM 307 Numerical Analysis 3+0 4,5 RSM 212 Fundamentals of Painting 3+0 4,5 SAG 102 First Aid 2+0 3,0 SER 246 Fundamentals of Ceramics 3+0 4,5 SNT 155 History of Art 2+0 3,0 SOS 155 Folkdance 2+0 3,0 SOS 312 Organizational Behavior 3+0 4,5 TKY 401 Reliability Analysis 3+0 4,5

DEPARTMENT OF AVIATION MANAGEMENT

The School of Civil Aviation was established as a vocational school in 1986 to provide qualified personnel for rapidly growing Turkish Aviation industry with funds provided by the Turkish Government, United Nations Development Programme and International Civil Aviation Organization. Through a bilateral agreement that was signed between French and Turkish Governments in 1989, French Government has provided a long-term loan of 115 million French Francs for the development of the School of Civil Aviation. About 70 faculty members and technical staff from the School of Civil Aviation attended academic,

678

research or non-degree programmes of French aviation training institutions like IAS, SUPAERO, ENAC, ENSICA and EMA. Some other faculty members and technical staff have been trained by French aviation companies like SOFREAVIA SERVICE, THOMSON-CSF, SOCATA and EUROCOPTER. In 1992, the school started to provide Bachelor's Degree programmes due to the advancements in aeronautical technology and aviation education standards. All the students of academic degree programmes have to attend one year English language preparation classes before starting their four year training at the school. The School has a Maintenace Center which has a closed surface area of 7.500 squaremeter to practice students on aircraft and an apron of 11.000 squaremeter. The Center is equipped with computer controlled instruments to repair various types of aircrafts in fleets of aviation companies.

Department of Aviation Management was first established as three departments; Department of Ground Handling, Department of Catering and Department of Cargo. When The School changed its programs to graduate level according to new trends in aviation industry and education, to meet the international standards, all three Departments had come together under a new concept and got a new name as Department of Aviation Management, in 1995.Presently, there are ten full-time faculty members, two research associates and four research assistants working with the Department. Moreover brifing office and tower which are organize all activities of Anadolu Airport has nine members. Furthermore, some faculty members from other departments in our university and from other universities also work as adjunct faculty members in our Department. Currently there are 114 undergraduate students in the Department. Moreover; there 26 student who are attending postgraduate programs which is awarded by the Graduate School of Social Sciences. Thirty students for the Department of Aviation Management are selected through the National Students' Placement Exam.

Each academic staff member of the Department is given a personal computer for her/his own exclusive use. A computer laboratory equipped with 32 personal computers, which are connected to the Internet, is open to our students. Another computer laboratory which has 36 personal computers and a data show system is used for seminars and educational purposes. In addition, the School's conference hall of capacity of 110 which is fully equipped can be used by the Department at any time.

Qualified personnel meeting international standards have been trained by aviation management programme. Our graduates can easily find job oppurtinities in Turkish Airlines, airports, general aviation facilities, airline and ground handling companies. We have graduates and undergraduates attending to The Department of Aviation Management programmes from other nations such as Azerbaijan, Bulgaria, Germany, Greece, Jordan, Kazakhstan, Kirghistan, Syria, Switzerland, Tadjikistan and Turkmenistan.

PROGRAM

I. SEMESTER HUK 153 Fundamentals Concepts of Law 2+0 3,0 ISL 155 Introduction to Business 2+0 3,0 MAT 129 Mathematics I 2+0 3,0 MUH 151 Introduction to Accounting 3+0 4,5 SHU 103 Flight Theory 2+0 3,0 TÜR 103 Turkish Language 4+0 6,0 IKT 153 (Eng) Economics I 3+0 4,5 SHU 101 (Eng) Introduction to Civil Aviation 2+0 3,0

30,0

II. SEMESTER MAT 172 Mathematics II 2+0 3,0 SHU 203 Basic Operations 3+0 4,5 SHU 205 Management Statistics 3+0 4,5 BIL 151 (Eng) Fundamentals of Information

Technology 2+2 4,5 IKT 154 (Eng) Economics II 3+0 4,5 SHU 104 (Eng) Air Transportation 2+0 3,0 SHU 106 (Eng) Airport and Airport Equipment 2+0 3,0 Elective Course (1) - 3,0

30,0

III. SEMESTER

HUK 154 Commercial Law 2+0 3,0 SHU 102 Meteorology 3+0 4,5 SHU 201 Navigation and Navigation Aids 3+0 4,5 SHU 212 Operation and Performance 3+0 4,5 SOS 107 Behavioral Sciences 2+0 2,5

IV. SEMESTER SHU 202 Ramp and Ground Operation Services 3+0 4,5 SHU 214 Passenger Handling Services 4+0 6,0 SHU 216 Cargo Sale 4+0 6,0 SHU 220 Dangerous Goods 4+0 6,0 SHU 222 CRS Applications 3+0 4,5

679

TAR 253 Atatürk's Principles and History of Turkish Revolution 2+0 3,0

SHU 209 (Eng) Airport Operations 2+0 3,5 Elective Course (1) - 4,5

30,0

TAR 253 Atatürk's Principles and History of Turkish Revolution 2+0 3,0

30,0

V. SEMESTER

FIN 202 Financial Management 3+0 5,0 ISL 301 Human Resources Management 3+0 4,0 PZL 302 Marketing Management 3+0 4,5 ING 307 (Eng) Aviation English I 4+0 6,0 MUH 240 (Eng) Cost and Management

Accounting 4+0 6,0 TRZ 202 (Eng) Travel Agencies and Tour

Operators 3+0 4,5

30,0

VI. SEMESTER HUK 252 Labor Law 2+0 3,0 ISL 417 Management Information

Systems 3+0 4,5 SHU 302 Airline Management 3+0 4,5 SHU 304 Air Traffic Rules and Services 3+0 4,5 SOS 312 Organizational Behavior 3+0 4,5 ING 308 (Eng) Aviation English II 4+0 6,0 Elective Course (1) - 3,0

30,0

VII. SEMESTER MLY 205 Public Finance 3+0 4,5 MUH 302 Analysis of Financial Reports 3+0 4,5 NÜM 305 Quantitative Methods 3+0 4,5 SHU 403 Finance in Aviation Companies 3+0 4,5 SHU 405 Aviation Safety 3+0 4,5 SHU 404 (Eng) Airport Management 3+0 4,5 Elective Course (1) - 3,0

30,0

VIII. SEMESTER HUK 418 Air Law 2+0 3,0 IKT 428 Air Transportation Economics 2+0 3,0 PZL 410 Airline Marketing 2+0 3,0 SHU 406 Aviation Security 2+0 3,0 SHU 412 Airline Fleet Planning 2+0 3,0 SHU 416 Aircraft Maintenance

Management 2+0 3,0 SHU 498 Applications of Civil Aviation

Management 0+6 4,5 SHU 420 (Eng) Logistics Management 3+0 4,5 Elective Course (1) - 3,0

30,0

ELECTIVE COURSES BEÖ 155 Physical Education 2+0 3,0 HYO 303 Model Aircraft Constmetion 1+2 3,0 HYO 451 General Aviation 3+0 4,5 IKT 420 European Union and Turkey 2+0 3,0 ISL 102 Management and Organization 3+0 4,0 MÜZ 155 Turkish Folk Music 2+0 3,0 MÜZ 157 Traditional Turkish Art Music 2+0 3,0

PZL 210 Customer Relations 2+0 3,0 RSM 212 Fundamentals of Painting 3+0 4,5 SAG 102 First Aid 2+0 3,0 SER 246 Fundamentals of Ceramics 3+0 4,5 SHU 407 Ground Handling Management 2+0 3,0 SNT 155 History of Art 2+0 3,0 SOS 155 Folkdance 2+0 3,0

DEPARTMENT OF AVIONICS

The School of Civil Aviation was established as a vocational school in 1986 to provide qualified personnel for rapidly growing Turkish Aviation industry with funds provided by the Turkish Government, United Nations Development Programme and International Civil Aviation Organization. Through a bilateral agreement that was signed between French and Turkish Governments in 1989, French Government has provided a long-term loan of 115 million French Francs for the development of the School of Civil Aviation. About 70 faculty members and technical staff from the School of Civil Aviation attended academic, research or non-degree programmes of French aviation training institutions like IAS, SUPAERO, ENAC, ENSICA and EMA.

680

Some other faculty members and technical staff have been trained by French aviation companies like SOFREAVIA SERVICE, THOMSON-CSF, SOCATA and EUROCOPTER. In 1992, the school started to provide Bachelor's Degree programmes due to the advancements in aeronautical technology and aviation education standards. All the students of academic degree programmes have to attend one year English language preparation classes before starting their four year training at the school. The School has a Maintenace Center which has an indoor area of 7.500 squaremeter to practice students on aircraft and an apron of 11.000 squaremeter. The Center is equipped with computer controlled instruments to repair various types of aircrafts in the fleets of aviation companies. Beyond academic instruction activities The School also provides non-degree programmes to train helicopter maintenance technicians to meet the needs of organizations such as the Police. These courses are custom designed according to the needs of demanding organizations. The School is already training Turkish Air Force Depot Level Maintenance Centres' Aircraft Maintenance Technicians for upgrading the Turkish Air Force to JAR145 standards.

Department of Avionics was first established as two departments; Department of Aircraft Electrical Systems and Department of Aircraft Electronic Systems. When The School changed its programs to graudate level both Departments had a new concept and names as Department of Ground Equipments and Department of Aircraft Equipments. According to new trends in aviation industry and education and to meet the international standards two Departments organized as one and had a new name; Department of Avionics, in 1995.

Presently, there are ten full-time faculty members, six research associates, five research assistants and five teaching maintenance technicians working with the Department. Furthermore, some faculty members from other departments in our university and from other universities also work as adjunct faculty members in our department. Currently there are 136 undergraduate students in the department. Moreover there 3 student who are attending postgraduate programs which is awarded by the Graduate School of Sciences. Thirty students for the Department of Avionics are selected through the National Students' Placement Exam.

There are plenty of laboratories in the Department such as electronics, electrotechnics, avionics, communication and navigational aids which are used in training and research activities. Each academic staff member of the department is given a personal computer for her/his own exclusive use. A computer laboratory equipped with 32 personal computers, which are connected to the Internet, is open to our students. Another computer laboratory which has 36 personal computers and a data show system is used for seminars and educational purposes. In addition, the School's conference hall of capacity of 110 which is fully equipped can be used by the Department at any time.

Qualified personnel meeting JAR 66 standards have been trained by avionics programme. Our graduates can easily find job oppurtinities in Turkish Airlines, Turkish Air Force Air Supply Maintenance Centers, General Directorate of State Airports and throughout the aviation industry. We have graduates and undergraduates attending to The Department of Avionics programmes from other nations such as Azerbaijan, Bulgaria, Germany, Greece, Jordan, Kazakhstan, Kirghistan, Syria, Switzerland, Tadjikistan and Turkmenistan.

PROGRAM

I. SEMESTER

FIZ 105 Physics I 4+0 6,0 FIZ 107 Physics Laboratory I 0+2 1,5 HEE 103 Basics of Aircraft 4+0 6,0 MAT 159 Calculus I 2+2 4,5 MAT 163 Linear Algebra 2+0 3,0 ING 153 (Eng) Advanced English I 4+0 6,0 Elective Course (1) - 3,0

30,0

II. SEMESTER HYO 106 Basic Aircraft Power Plants 2+2 4,5 MAT 160 Calculus II 2+2 4,5 TÜR 103 Turkish Language 4+0 6,0 BIL 151 (Eng) Fundamentals of Information

Technology 2+2 4,5 HYO 104 (Eng) Introduction to Civil Aviation 3+0 4,5 ING 154 (Eng) Advanced English II 4+0 6,0

30,0

III. SEMESTER BIL 257 Computer Programming 2+2 4,5 ELE 205 Circuit Analysis I 3+2 6,0 MAT 208 Differential Equations 3+0 4,5 MLZ 217 Science of Aircraft Materials 2+0 3,0 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0

IV. SEMESTER ELE 210 Circuit Analysis II 2+2 4,5 ELO 202 Electronic Circuits I 2+2 4,5 HEE 204 Navigation Systems 3+0 4,5 HEE 208 Basic Aircraft Airframe Systems 3+0 4,5 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0

681

ING 221 (Eng) Aviation English I 3+0 4,5 Elective Course (1) - 4,5

30,0

TRS 113 Technical Drawing and Perspective 2+2 4,5

ING 222 (Eng) Aviation English II 3+0 4,5

30,0

V. SEMESTER ELO 303 Electronic Circuits II 2+1 3,0 HEE 301 Sensors and Measuring Systems 3+0 4,5 HEE 307 Aircraft Electrical Systems 2+2 4,5 HYO 203 Thermodynamics 2+0 3,0 ELO 305 (Eng) Logic Circuits 2+2 4,5 HYO 301 (Eng) Fundamentals of Aerodynamics 3+2 6,0 Elective Course (1) - 4,5

30,0

VI. SEMESTER ELE 202 Electrical Machinery 3+2 6,0 HEE 306 Communication Systems 2+2 4,5 HEE 308 Power Plant Workshop 0+3 3,0 HYO 302 Aircraft Maintenance and

Overhaul 3+0 4,5 HYO 406 Helicopter Theory and Systems 3+0 4,5 TKY 304 Quality Assurance Systems 2+0 3,0 HEE 206 (Eng) Automatic Control Systems 2+2 4,5

30,0

VII. SEMESTER ELO 403 Microcomputers 2+1 3,0 HEE 407 Airframe Workshop 0+3 3,0 HYO 209 Aviation Legislation 2+0 3,0 HYO 314 Human Performance and

Limitations 3+0 4,5 HEE 401 (Eng) Automatic Flight Control 3+0 4,5 HEE 403 (Eng) Aircraft Instruments 3+1 4,5 Departmental Elective Course

(1) - 4,5 Elective Course (1) - 3,0

30,0

VIII. SEMESTER HEE 412 Aircraft Communication Systems 2+0 3,0 HEE 414 Advanced Technology Instrument

Systems 4+0 6,0 HEE 416 Aircraft Electricity Workshop 0+6 4,5 HEE 498 Applications of Avionics 0+6 4,5 HYO 404 Advanced Aircraft Electrical Systems 3+0 4,5 HYO 412 Maintenance Practice Methods 0+3 3,0 Departmental Elective Course (1) - 4,5

30,0

DEPARTMENTAL ELECTIVE COURSES ELE 451 Electromagnetic Wave Theory 3+0 4,5 HEE 305 Microwave 2+2 4,5 HEE 405 (Eng) Distance Measuring Equipment 2+2 4,5 HEE 406 Instrument Landing

System/VHF Omni Range 2+2 4,5 HEE 408 Radar Systems 3+0 4,5 HEE 409 Antennas 3+0 4,5 HYO 105 (Eng) Air Transportation Management 3+0 4,5 MEK 203 Flight Mechanics 3+0 4,5 SHU 424 Aircraft Maintenance and

Reliability Management 3+0 4,5 ELECTIVE COURSES BEÖ 155 Physical Education 2+0 3,0 HUK 252 Labor Law 2+0 3,0 IKT 151 (Eng) Economics 3+0 4,5

ILT 307 Communication 3+0 4,5 IST 201 Statistics 3+0 4,5 ISL 102 Management and Organization 3+0 4,0 MUH 453 Cost Accounting 3+0 4,5 MÜZ 155 Turkish Folk Music 2+0 3,0 MÜZ 157 Traditional Turkish Art Music 2+0 3,0 NÜM 307 Numerical Analysis 3+0 4,5 RSM 212 Fundamentals of Painting 3+0 4,5 SAG 102 First Aid 2+0 3,0 SER 246 Fundamentals of Ceramics 3+0 4,5 SNT 155 History of Art 2+0 3,0 SOS 155 Folkdance 2+0 3,0 SOS 312 Organizational Behavior 3+0 4,5 TKY 401 Reliability Analysis 3+0 4,5

682

DEPARTMENT OF FLIGHT TRAINING

The School of Civil Aviation was established as a vocational school in 1986 to provide qualified personnel for rapidly growing Turkish Aviation industry with funds provided by the Turkish Government, United Nations Development Programme and International Civil Aviation Organization. Through a bilateral agreement that was signed between French and Turkish Governments in 1989, French Government has provided a long-term loan of 115 million French Francs for the development of the School of Civil Aviation. About 70 faculty members and technical staff from the School of Civil Aviation attended academic, research or non-degree programmes of French aviation training institutions like IAS, SUPAERO, ENAC, ENSICA and EMA. Some other faculty members and technical staff have been trained by French aviation companies like SOFREAVIA SERVICE, THOMSON-CSF, SOCATA and EUROCOPTER. In 1992, the school started to provide Bachelor's Degree programmes due to the advancements in aeronautical technology and aviation education standards. All the students of academic degree programmes have to attend one year English language preparation classes before starting their four year training at the school. The School has a Maintenace Center which has a closed surface area of 7.500 squaremeter to practice students on aircraft and an apron of 11.000 squaremeter. The Center is equipped with computer controlled instruments to repair various types of aircrafts in the fleets of aviation companies. The School of Civil Aviation's campus also includes an airfield which has an asphalt runway of 2600 meters long and 30 meters wide. Runway strength is LCN 63, has an apron of dimensions 100x83 meters, asphalt taxiways of 1100x18 meters and CAT 1 lighting with PAPIs available. Beyond academic instruction activities The School also provides non-degree programmes to train aircraft and helicopter pilots to meet the needs of organizations such as Police and Turkish Airlines. These courses are custom designed according to the needs of demanding organizations.

Presently, there are four full-time faculty members and seventeen instructer pilots working with the Department. Moreover brifing office and tower which organize all activites of Anadolu Airport has nine members. Furthermore, some faculty members from other departments in our university and from other universities also work as adjunct faculty members in our department. Department of Flight Training also have a doctor who specialized on aviation for the daily controls of instructors' and students' health. Currently there are 41 undergraduate students in the Department. Graduates can attend postgraduate programs which is awarded by the Graduate School of Social Sciences. Besides, a new postgradute program is held by the Graduate School of Science for the Department. Department of Flight Training selects 10 students through the specific selection procedures including Aptitude Tests.

Aircraft fleet of the School consists of AA-5B Tiger, TB-20 Trinidad, TB-9 Tampico, Beechcraft Duchees 76, King Air C-90, and King Air 200 types of aircraft. Two multi-engine and three single engine flight simulators are also used. Each academic staff member of the department is given a personal computer for her/his own exclusive use. A computer laboratory equipped with 32 personal computers, which are connected to the Internet, is open to our students. Another computer laboratory which has 36 personal computers and a data show system is used for seminars and educational purposes. In addition, the School's conference hall of capacity of 110 which is fully equipped can be used by the Department at any time.

Qualified personnel meeting international standards have been trained by flight training programmes. Our graduates can easily find job oppurtinities in Turkish Airlines and throughout the aviation industry. We have graduates and undergraduates attending to Department of Flight Training programmes from other nations such as Azerbaijan.

PROGRAM

1. PERIOD / 1. PHASE FIZ 109 Physics I 2+0 3,0 MAT 135 Mathematics 2+2 4,5 PLT 103 General Aircraft Knowledge 2+0 3,0 SHU 102 Meteorology 3+0 4,5 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0 TÜR 103 Turkish Language 4+0 6,0 ING 113 (Eng) English Speaking Skills I 4+0 6,0

30,0

1. PERIOD / 2. PHASE PLT 104 International Agreements and

Organizations 2+0 3,0 PLT 106 Basics of Aircraft II 3+0 4,5 PLT 110 Air Traffic Services 2+0 3,0 PLT 227 The Earth and Solar System 2+0 3,0 TAR 253 Atatürk's Principles and History

of Turkish Revolution 2+0 3,0 BIL 151 (Eng) Fundamentals of Information

Technology 2+2 4,5 ING 114 (Eng) English Speaking Skills II 4+0 6,0 Elective Course (1) - 3,0

683

30,0

1. PERIOD / 3. PHASE

PLT 203 Basics of Aircraft III 2+0 3,0 PLT 221 General Navigation and Flight

Planning I 3+0 4,5 PLT 225 Aerodynamics 3+0 4,5 PLT 229 Radio Navigation Aids 2+0 3,0 PLT 231 Piston and Jet Engines 2+0 3,0 PLT 233 Flight Performance 2+0 3,0 PLT 235 Flight Operations 2+0 3,0 PLT 237 Flight Procedures 2+0 3,0 SAG 102 First Aid 2+0 3,0

30,0

2. PERIOD / 1. PHASE HYO 212 Aeronautical Information

Publication 28+0 3,0 PLT 204 Normal Procedures I 12+0 1,5 PLT 206 Emergency Procedures I 12+0 1,5 PLT 212 Flight Meteorology 30+0 3,0 PLT 216 Human Performance and

Limitations 44+0 4,5 PLT 220 Avionics 12+0 1,5 PLT 224 Standard Operational

Procedures I 12+0 1,5 PLT 234 Introduction to Aircraft Types I 30+0 3,0 PLT 236 Flight and Ground Safety I 15+0 1,5 PLT 238 Practice in Flight I 0+15 4,5 PLT 232 (Eng) Air Traffic Communication I 24+18 4,5

30,0

2. PERIOD / 2. PHASE

PLT 325 Flight and Ground Safety II 30+0 3,0 PLT 327 Navigation and Flight Planning II 42+0 4,5 PLT 341 Emergency Procedures II 12+0 1,5 PLT 343 Standard Operational Procedures II 12+0 1,5 PLT 345 Practice in Flight II 0+20 4,5

15,0

2. PERIOD / 3. PHASE PLT 310 Simulator Procedures I 0+10 3,0 PLT 319 Aviation Psychology 40+0 4,5 PLT 334 Air Traffic Communication II 24+18 4,5 PLT 346 Practice in Flight III 0+40 7,5

19,5

3. PERIOD / 1. PHASE

PLT 317 Emergency Procedures III 15+0 1,5 PLT 335 Standard Operational Procedures IV 15+0 1,5 PLT 347 Normal Procedures II 20+0 3,0 PLT 349 Introduction to Aircraft Types II 25+0 3,0 PLT 351 Basic Instrument 36+0 4,5 PLT 353 Practice in Flight IV 0+35 7,5 PLT 355 Simülator Application II 0+10 3,0 PLT 357 Flight Safety III 15+0 1,5

25,5

3. PERIOD / 2. PHASE PLT 413 Radio Instrument Flight 40+0 4,5 PLT 416 Jeppesen 20+0 3,0 PLT 428 Weight and Balance 20+0 3,0 PLT 429 Practice in Flight V 0+28 6,0 PLT 430 Simulator Application III 0+10 3,0

19,5

3. PERIOD / 3. PHASE

PLT 432 Modern Instrument Systems 36+0 4,5 PLT 434 Radio Instrument Cross Country 50+0 6,0

PLT 435 Practice in Flight VI 0+30 6,0 PLT 436 Flight Planning and Flight Monitoring 24+0 3,0 PLT 437 Simulator Application IV 0+5 1,5

PLT 439 Night Flight 12+0 1,5

22,5

3. PERIOD / 4. PHASE

PLT 438 Normal Procedures III 12+0 1,5 PLT 440 Emergency Procedures IV 12+0 1,5

PLT 444 Standard Operation Procedures V 12+0 1,5 PLT 446 Radar, Autopilot and GPS 12+0 1,5 PLT 448 Introduction to Aircraft Types III 20+0 3,0

PLT 452 Multy Crew Cooperation (MCC) 36+0 4,5 PLT 454 Practice in Flight VII 0+15 4,5

684

22,5

18,0

ELECTIVE COURSES BEÖ 155 Physical Education 2+0 3,0 MÜZ 155 Turkish Folk Music 2+0 3,0

MÜZ 157 Traditional Turkish Art Music 2+0 3,0 SNT 155 History of Art 2+0 3,0 SOS 155 Folkdance 2+0 3,0

COURSE CONTENTS

BEÖ 155 Physical Education 2+0 3,0 Definition of Physical Education and Sports; Aims, Disadvantages of Inactive Life; Various Activities for Physical Education; Recreation; Human Physiology; First Aid; Sports Branches: Definition, Rules and Application; Keep Fit Programs.

BIL 151 Fundamentals of Information Technology 2+2 4,5

Introduction to Information Technology; Information Age and Information Society; Information Systems; Concept of Algorithm; Basics of Algorithm; Computer Organization; Operating Sy stems: Definition, Functions and types of operating systems; Computer Software; Application Software: Word-processing software, Reports and spreadsheet software, Software for drawing, Presentation software; Database Concepts: Definition and types of databases; Data Communications and Computer Networks; Using E-mail, FTP, Internet and WWW; Use of Internet; Seeking Information; Accessing Information.

BIL 162 Introduction to Computer Programming 2+2 4,5

Fundamentals of Computers: Introduction to computers; Structure and main units of computers; TURBO PASCAL Programming Language: Fundamentals of computer programming languages and Turbo Pascal, Characters used in Turbo Pascal and the punctuation, Constants, variables and operators, Introduction to programming, Conditional branching, Loops, One and two dimensional arrays, Procedures and functions.

BIL 257 Computer Programming 2+2 4,5 Analysis of a C Program; Keywords; Variables, Constants and declaring a function or an array; Data Types Used in C; Operators and Precedence; Declaration of Data; Basic I/O Statements: Getchar(), Getch(), Getche(), Putchar(), Gets(), Puts(), Printf(), Scanf(); Loop Statements: For, While, Do-While; Decision Statements: If-Else, Switch, Case; Strings and Arrays: One dimensional arrays, Multidimensional arrays; Pointers; Character Strings; Functions; Term Project.

BIL 259 Introduction to Computer Programming 2+2 3,0

Fundamentals of Computers: Introduction to computers; Structure and main units of computers; TURBO PASCAL Programming Language: Fundamentals of computer programming languages and Turbo Pascal; Characters used in Turbo Pascal and the punctuation; Constants; variables

and operators; Introduction to programming; Conditional branching; Loops; One and two dimensional arrays; Procedures and functions.

ELE 201 Electric Electronic Circuits 3+1 4,5 Direct Current: Electron theory, Current, Voltage, Resistance, Law of Ohm, Energy and power, D.C. circuits, Circuit theorems and conversions, Methods of circuit analysis; Alternative Current: Production of A.C., Magnetism, Capacitance and inductance, Serial/paralel RLC circuits, Resonance, Radio receivers, Filters, A.C. power, Power compensation; Semi Conductors: Principles and features of diodes, Principles and features of transistors, Transistor circuits; Integrated Circuits: Logic gates, Flip flops.

ELE 202 Electrical Machinery 3+2 6,0 Magnetic Circuits and Transformers: Magnetic circuits, Generation of AC voltage, Ideal transformers, Three phase transformers, Special transformers; Electromechanical Energy Conversion Principle: Energy balance, Single-excited and multiple-excited magnetic circuits; Basic Concepts of Rotating Machines: Synchronous machines, DC machines, Rotating magnetic field; DC Machines: DC generators, DC motors, Speed control of DC motors; Induction Machines: Principles of operation, Analysis of equivalent circuit; Starting and Speed Control Methods; Synchronous Machines: Salient pole structure, Cylindrical rotor structure, Parameters of equivalent circuit, Regulation and efficiency.

ELE 205 Circuit Analysis I 3+2 6,0 Electron Theory: Atoms, Molecules, Conductors, Isolators, Semiconductors, Coulomb Law; Definitions and Units: Current, Voltage, Resistance, Power; DC Circuits: Series and parallel sources, Ohm's and Kirchhoff's Laws, Resistance, Voltage, Current calculations; Resistance: Color codes, Series and parallel resistances; Techniques of Circuit Analysis: Nodal and Mesh Analysis, Thévenin's and Norton's Theorems; Magnetisms, Magnetic field; Capacitor and Inductor: Capacitance and inductance in series and parallel circuits; RL, RC, RLC Circuits: Unit step function; Natural and forced response.

ELE 210 Circuit Analysis II 2+2 4,5 Sinusoidal Analysis: Characteristics of sinusoids, Determination of phase, period, frequency, instantaneous, average, root mean square values, Triangular and square waveforms, Phasor: Phasor relationships for R, L and C, Impedance, Admittance; Sinusoidal Steady-State Response:

685

Nodal and mesh analysis, Superposition and Thévenin?s Theorem, Phasor Diagrams, Current-voltage phasor relationships for parallel and series circuits; Powers of the RLC Circuits: Instantaneous and average power, Effective values of current and voltage, Apparent power and power factor, Principles of single and three phase.

ELE 301 Electrical Machinery 2+2 4,5 Transformers: Primary and secondary coils, Turn ratio, Determination of induced emf., transformer action under load and no-load conditions, transformer losses, efficiency, 3 phase transformers. DC Machinery: Basic motor and generator theory, types of DC generator, series, shunt, compound generator and its characteristics. DC motor characteristics, speed control, losses, efficiency AC Machinery: construction of AC machinery. Determination of induced emf. Types of AC generators and motors, action under load and no load conditions, power, start procedures, speed control

ELE 451 Electromagnetic Wave Theory 3+0 4,5 Vector Analysis; Coordinate Systems and Transformation; Vector Calculus: Differential length, Area and volume, Divergance theorem, Stoke's theorem; Electrostatic Fields: Coulomb's law, Gauss's law, Electric potential and dipole; Magnetic Fields: Ampere's law and applications, Magnetic flux density, Maxwell's equations for static EM Fields; Maxwell's Equations: Faraday's law, Maxwell's equations in final forms, Time-harmonic fields; Electromagnetic Wave Propagation: Wave propagation in lossy dielectric, Plane waves in losses dielectric, free space and good conductors.

ELO 202 Electronic Circuits I 2+2 4,5 Theory of Semiconductor: Carriers; Diode symbols and characteristics, P and N type materials, Majority and minority carriers, PN junction, Clampers, clippers and rectifiers, Types of diodes; Transistors: Transistor symbols and characteristics, PNP and NPN type transistors, Base, emitter, collector configurations, DC biasing, Amplificators: Transistor AC modeling and equivalent circuits, Current and voltage gain, input and output impedance, multi-stage circuit principles; FET's: DC biasing, AC modeling and equivalent circuits.

ELO 303 Electronic Circuits II 2+1 3,0 Field Effect Transistors (FET) and AC/DC Analysis: Definitions, Junction field effect transistors (JFETS), Metal oxide FETS (MOSFETS), Complementary metal oxide semiconductors; Integrated Circuits: Linear integrated circuits, Operational amplifiers, Active filters with opamp; Voltage Regulators and Rectifiers: Half wave and full wave rectifiers, Rectifiers with zener diode, Rectifiers with transistors, Rectifiers with integrated circuits, Switching mode regulators; Oscillators: Stable multi-vibrators, Unstable multi-vibrators, Voltage controlled oscillators, Phase locked loop oscillators; Amplifiers with Feedback: Definitions of feedback, Opamp applications.

ELO 305 Logic Circuits 2+2 4,5

Introduction: Signals; Digital Representation of Information; Algebra of Logical Variables: Basic logical functions; NOT, OR and AND Gates; Boolean Algebraic Theorems; De Morgan Theorem; Arithmetic Representation of Signed Numbers: One's and two's complement; Standard Forms of Logical Functions; Karnaugh Maps; Basic Combinational Circuits: Encoders, Decoders, Multiplexers and demultiplexers; Flip Flops and Registers; Sequential Circuits: Counters.

ELO 403 Microcomputers 2+1 3,0 Number Systems: Decimal to binary conversion, Hexadecimal to binary conversion; Introduction to Microcomputers: ALU and memory types, Register types; Bus Structure: Address bus, Data bus, Control bus, Memory addressing and decoding technique; Introduction to 8080 and 8085 CPU: Construction, Instruction timing, Interrupt structure, Registers, Addressing technique, Programming technique and sample programs; Parallel Input Output: 8155 Parallel I/O.

FIN 202 Financial Management 3+0 5,0 Definition and Aim of Financial Management in Firms; Using Ratios, Breakeven and Operating Leverage in Financial Analysis; Fund Flow Statement; Pro forma Budget as Instrument of Financial Planning; Working Capital Management; Cash Management; Inventory Management; Interest Factor in Investment Decisions; Capital Budgeting; Debt Management; Using Other Financial Instruments; Cost of Capital.

FIZ 105 Physics I 4+0 6,0 Measurement and Units: Measurement, Units, Dimensional analysis; Vectors: Vector and scalar quantities, Coordinate systems and frames of reference; Kinematics: Motion in one dimension, Motion in two dimensions; Dynamics; Work and Energy; Momentum and Collisions; Rotational Motion: Angular velocity and angular acceleration, Moments of inertia, Work and energy in rotational motion; Static Equilibrium.

FIZ 107 Physics Laboratory I 0+2 1,5 SI Unit System and Dimension Analysis; Measurement and Error Calculations; Graph Analysis; Principles of Experimental Studying and Preparation of Experimental Reports; Variation of Range due to Shooting Angle; Conservation of Energy; Motion with Constant Acceleration; Measurement of Angular Velocity; Determination of Moment of Inertia; Freely Falling; Simple Pendulum; Motion on Inclined Plane; Mass-spring System; Viscosity.

FIZ 109 Physics I 2+0 3,0 Measurement and Physical Quantities: Standarts international, Scalar and vector quantities, Addition of vectors, Components of vector; Kinematics: Displacement, Velocity, Acceleration, One- dimensional motion with constant velocity, One- dimensional motion with constant acceleration; Dynamics; Laws of dynamics, Weight and mass, Force of friction; Work and Energy: Conversion of

686

energy, Conservation of energy, Power, Efficiency; Impulse and Momentum: Conservation of momentum, Collisions; Equilibrium: The conditions of equilibrium of a rigid object, Center of mass, Moment of any force.

FIZ 305 Space Physics 3+0 4,5 Coordinate systems; Characteristics of dynamic mass on atmospheric conditions; Characteristics of dynamic mass in space; Locatable modeling on atmospheric conditions; Interactions of dynamic mass to its located space-time; Static and dynamic energy of mass; Fundamentals of space-time; Analysis of gravitational forces on mass; Interactions of dynamic mass and space-time.

HEE 103 Basics of Aircraft 4+0 6,0 Basic Definitions: Motion; Relative Motion; Aviation electricity; Electronic; Air; Atmosphere; Electrical Properties; Risks; Lift in Air: Flight; Analysis of Aerodynamic Air Resistance; Analysis of air Velicles: Balloon; Zeppelin; Glider; Airplane; Helicopter; Parachute; Basic Aircraft Aerodynamics; Aircraft Components Wing and Its Components; Aircraft Power plant Groups; Air frame; Flight Control Systems; Tail plans; Landing Gears; Aircraft Equipment: General Knowledge; Aircraft electrical and electronic systems; Avionics; Study of Aircraft in Inventory; Study of the Airfield and Maintenance Facilities.

HEE 204 Navigation Systems 3+0 4,5 General Information about Radio Waves; Classification of Navigation System; ADF (Automatic Direction Finder); VOR (VHF Omni Range); DME (Distance Measuring Equipment); TACAN (Tactical Air Navigation); ILS (Instrument Landing System); MLS (Microwave Landing System); RA (Radio Altimeter); GPWS (Ground Proximity Warning System); RADAR (Radio Detection and Ranging); GCA (Ground Control Approach); OMEGA; GPS (Global Positioning System); INS (Inertial Navigation System).

HEE 206 Automatic Control Systems 2+2 4,5 Introduction to Control Systems: Definitions, Open and closed loop control, Stability; Mathematical Substructure: Laplace transformation, Inverse Laplace transformation; Mathematical Modeling of Systems: Transfer functions, Block diagrams, Obtaining the transfer functions of systems; Controllers and Effects: Linear controller, Integral and derivative controllers, Effect of controllers on control system performance; Transient Response Analysis: First order systems, Second order systems, High order systems, Routh's stability criterion, Error Analysis: Error coefficients.

HEE 208 Basic Aircraft Airframe Systems 3+0 4,5 Aircraft Hydraulic Systems: Basic principles, Hydraulic fluids, Basic hydraulic systems, Hydraulic system components, Special types of aircraft hydraulic systems; Aircraft Pneumatic Systems: Pneumatic system components, Special types of aircraft pneumatic systems; Aircraft Fuel Systems: Fuel types used in aviation, Aircraft fuel systems and components, Multi-engine aircraft fuel systems, Defueling, Fuel system indicators; Cabin

Atmosphere Control Systems: Air conditioning and pressurization systems, Oxygen systems; Ice, Rain and Fire Protection Systems.

HEE 301 Sensors and Measuring Systems 3+0 4,5 Introduction; Methods of Statistical Analyses; Metrological Characteristics of Sensors: Sensitivity, Active sensors, Passive sensors, Factors affecting measurement, Linearity, Rapidity, Resolution, Hysteresis error, Linearity error, Calibration, Measurement errors; Measurement of Temperature; Measurement of Pressure: Pitot-Static system; Measurement of Liquid Pressure; Measurement of Vibration; Measurement of rpm; Measurement of Fuel Level.

HEE 305 Microwave 2+2 4,5 Electromagnetic Fundamentals: Definition of electromagnetic wave and propagation; Transmission Lines: Characteristic impedance, Propagation velocity and attenuation constant, Standing waves, Reflection coefficient; Smith Chart; Microwave Transmission Lines: Two- wire lines and coaxial lines, Wave guides; Passive Microwave Components: Connectors, Attenuators, Isolators, Filters; Active Microwave Components: Velocity modulation, Klystron oscillators and amplifiers, Magnetron; Antennas: Types of antennas and arrays; Microwave Measurements: Noise, Frequency, power and VSWR measurements.

HEE 306 Communication Systems 2+2 4,5 Introduction of Communication Systems; Communication Fundamentals: Fourier analysis, Noise, Sampling theorem, Filters, Oscillators; Amplitude Modulation: Mathematical expression of AM, Generation of AM, Types of AM; Single Side Band Techniques: Definition of SSB and modulation techniques; Angle Modulation: Angle modulation theorem, Frequency modulation, Mathematical expression, Wave spectrum, Modulation methods, Comparing of FM and AM; Radio Receivers: Types of receiver, AM receivers, FM receivers; Digital Modulation: Definition, Types of modulation and methods (PAM, PCM, TDM); Fiber optics.

HEE 307 Aircraft Electrical Systems 2+2 4,5 Electrical Power: Main parts of electrical power system, AC/DC generation and distribution, Supply of electrical power distribution; Power Distribution Part: Main AC distribution, Power source switching, Parallel operation of generators, Ground power source switching, DC essential power; Emergency Power Distribution; Distribution Components: Power relays, Fuse, Circuit breaker functions and markings, Current transformer; AC Generation: Generator basic function, Basic of 3 phase generator, Aircraft constant speed generator, Brushless generator, Generator cooling and connections, Static inverter, VSCF.

HEE 308 Power Plant Workshop 0+3 3,0 Usage of Hand Tools; Usage of Technical Orders; Reciprocating Engine Overhaul: Lubricant, fuel, hot/cold air condition systems; Supercharging/Turbocharging; Engine Monitoring and Ground Operating; Lock-Wiring

687

Techniques; Gas Turbine Engines: Air inlet, Compressors, Combustion chamber; Turbine Section: Types of turbine blades and their operating characteristics; Exhaust; Bearings and Seals; Lubrication Systems; Fuel Systems; Air Systems; Starting and Ignition Systems; Engine Indication Systems; Turboprop Engines, Turbo shaft Engines; Troubleshooting.

HEE 401 Automatic Flight Control 3+0 4,5 Flight Control Surfaces; Aircraft Stability: Dynamic and static stability, Longitudinal and lateral stability; Flight Control System Instruments; Automatic Control Fundamentals and Servomechanism: Automatic flight control system components; Sensing State Variations: Gyroscope and its properties, State sensor placement; Defining Command Signals; Processing and Converting Command Signals and Data Transmission; Digital Flight Control Computer; Outer Loop Control: Selecting vertical velocity and keeping it in desired value, Keeping the heading in desired value, Instrument landing system; Power Control by Command Signals.

HEE 403 Aircraft Instruments 3+1 4,5 Requirements and Standards; Elements and Mechanism; Instrument Terminology; Atmosphere; Instrument Displays; Panels and Layout; Instrument Grouping; Mounting Methods; Magnetic Indicators and Flow Lines; Illumination of Instruments and Panels; Pressure Measurement; Motor Pressure Indicators; Oil Pressure Indicating System; Pressure Instruments; Barometers; Pitot-Static Systems; Sensitive Altimeter; Rate of Climb Indicator; Measurement of Airspeed; Machmeter; Airspeed Indicators; Control Air Data Computer; Gyroscopes.

HEE 405 Distance Measuring Equipment 2+2 4,5 Introduction to DME; How Far I Am: Calculation of distance; Specifications: Frequency band; Type of Modulation: Pulse modulation, Characteristics of mode X and Y, UHF pulse, Spectrum of transponder pulse, Pulse repetition frequency, Identification, Dead time, Time delay; DME Performance: Coverage, System capacity, Accuracy; Transponder; Receiver: Diplexer, Reception detection control unit, Receiver, Synthesizer; Video Module; Decoder Module; Transmitter: Shaper module, Modulator, Amplifiers, Locking control; Supervising Function: Monitors, Test generators; Control function, Maintenance function; Thomson DME 740.

HEE 406 Instrument Landing System/VHF Omni Range 2+2 4,5

Mathematical Background; Line Circuits Used in ILS/VOR; 3 db Coupler; Specifications of ILS: Definitions of approach and landing path, Electrical definition of localizer and glide path; Separate Amplitude Modulation; Antenna Combinations; Localizer Signal; Glide Path Signal; ILS Errors; Thomson ILS 381; Specifications of VOR: Azimuth, Using of VOR in navigation, Electrical definition of azimuth; VOR Reference Signal; VOR Variable Signal; VOR Error Curves; Thomson VOR 540 C.

HEE 407 Airframe Workshop 0+3 3,0 Fasteners: Nuts, bolts, sticks, screws, aircraft rivets; Tubes pipes and connectors; Spring, Bearing, Transmissions; Control Cables; Safety Rules: Aircraft and workshop; Applications of workshop; Tool/Set; Adaptations and Openness; Tubes and Hoses; Safety Methods; Sheet Metal Layout, Metal Plate Operations: Welding, Plating, Soldering and Stick; Aircraft Weight and Balance; Aircraft Handling and Storage; Measuring Equipments; Sheet Metal Layout; Manufacturing the Aircraft Components by Calculating Their Work Dimensions.

HEE 408 Radar Systems 3+0 4,5 Principles of Primary Radar: Radar parameters, Frequency and wave length, PRI, PRF, PW; Antenna and Radom; Duplexer; Radar Transmitter and Receiver; Radar Display; Radar Range Equition; Resolution: Range resolution, Azimuth resolution; Doppler Radar: Doppler effect, doppler frequency, Airborne pulsed doppler radar, MTI, CW radar; Secondary Surveillance Radar (SSR), SSR interrogation and reply format, SSR transponder, ORCAM; Monopulse SSR; Mode's; Airborne Radar Applications: Weather radar, WAR, SAR, Radio Altimeter.

HEE 409 Antennas 3+0 4,5 Review of Electromagnetic Fundamentals; Review of Microwave Fundamentals: Antenna types; Radiation patterns; Radiation power density; Radiation intensity; Bandwidth polarization; Half-wavelength dipole; Loop antenna; Aperture antenna; Horn antenna; Micro strip antenna; Antenna arrays; Broadband antennas; Antenna measurements; Antenna applications.

HEE 410 Aircraft Electricity Workshop 0+3 3,0 Electrical Cables and Connectors; Electric Avionic General Test Equipment; Electrical Power: Batteries, DC power, AC power, Voltage regulation, Power distribution, Inverters, Transformers, Rectifiers, Circuit protection, External/Ground power; Equipment and Furnishings; Flight Controls; Air Conditioning and Air Supply; Ice and Rain Protection; Fuel Systems; Avionic Systems; Landing Gear; Instrument Systems; Lights; On Board Maintenance Systems; Engine Starting and Ignition Systems.

HEE 412 Aircraft Communication Systems 2+0 3,0 Flight Interphone System; Service Interphone System; Ground Crew Call System; Flight Crew Call System; Passenger Address System; VHF Communications; HF Communications; Selective Calling System; Emergency Locator Transmitter; Voice Recorder System; Flight Data Recorder System; Printing System; Aural Warning System; Master Caution System; Takeoff / Landing Warning System; Clocks; Passenger Entertainment System/Audio; Passenger Entertainment System/Video.

HEE 414 Advanced Technology Instrument Systems 4+0 6,0

Pitot-Static System; Air Data Inertial Reference System; Over Speed Warning System; Radio Altimeter System; Weather Radar System; Instrument Landing System; VOR

688

System; Marker Beacon system; Distance Measuring Equipment System; Automatic Direction Finder System; Global Positioning System; Air Traffic Control System; Traffic Collision Avoidance System; Ground Proximity Warning System; Air Data Instruments; Standby Magnetic Compass; Standby Attitude Reference System; Radio Magnetic Indicator.

HEE 416 Aircraft Electricity Workshop 0+6 4,5 Electrical Cables and Connectors; Electric Avionic General Test Equipment; Electrical Power: Batteries, DC power, AC power, Voltage regulation, Power distribution, Inverters, Transformers, Rectifiers, Circuit protection, External/Ground power; Equipment and Furnishings; Flight Controls; Air Conditioning and Air Supply; Ice and Rain Protection; Fuel Systems; Avionic Systems; Landing Gear; Instrument Systems; Lights; On Board Maintenance Systems; Engine Starting and Ignition Systems.

HEE 498 Applications of Avionics 0+6 4,5 Research Techniques: Basic research and applied research, Data collection techniques, Data processing; Research Methods: Subject selection, Subject restriction, Reference collection; Detailed Research on a Subject in Avionics: Definition of the problem or the subject in details, Definition of solution techniques or analysis methods, Research and performing practical work, Results; Reporting: Page set up, Sentence structure, Headings, Abbreviation formats, Figure and table formats, Table of references format.

HTK 101 Aircraft Basic Knowledge 4+0 6,0 Theory of Flight: Aerostatics, Aerodynamics; Basic Aerodynamics: Physical characteristics of air, Standard atmosphere, Airflow, Components of aerodynamic force, Aerodynamic moment, L/D ratio; Wing: Geometrical, structural and aerodynamic characteristics, Wing configurations, Flaps; Fuselage: Geometrical, structural and aerodynamic characteristics; Landing Gear: Types and components; Flight Control Surfaces: Primary flight control surfaces, Tabs; Aircraft Power plants: Reciprocating engines and propeller, Gas turbine engines.

HTK 202 Aerodrome Control Procedure 4+0 6,0 Division of Responsibility for Control Between air Traffic Control Units; Flight Plans; Aerodrome Control Tower; Information to Aircraft by Aerodrome control Towers; Traffic and Taxi Patterns; Selection of Runway in Use; Separation of Aircraft and Vehicles on the Maneuvering Area; Control of traffic in the Traffic Circuit; Control of Departing Aircraft; Control of Arriving Aircraft; Wake Turbulence Categories; Authorization of Special VFR Flights, Emergency Procedures; Other Functions of Aerodrome Control.

HTK 204 Phraseology 3+0 4,5 Communication Procedures; Description of Levels; Level Changes, Reports and Rates; Transfer of Control; Change

of Call Sign; Traffic Information; Meteorological Conditions; Position Reporting; Additional Reports; Radar Phraseology; Identification of Aircraft; Position Information; Vectoring Instructions; Termination of Radar Vectoring; Traffic Information and Avoiding Action; Communications and Loss of Communications; Termination of Radar Service; Vectoring for Approach.

HTK 205 Communication and Navigation Systems 3+0 4,5

General Information About Radio Waves; Classification of Navigation System; ADF (Automatic Direction Finder); VOR (VHF Omni Directional Range); DME (Distance Measuring Equipment); TACAN (Tactical Air Navigation); ILS (Instrument Landing System); MLS (Microwave Landing System); RA (Radio Altimeter); GPWS(Ground Proximity Warning System); RADAR (Radio Detection and Ranging); GCA (Ground Control Approach); OMEGA; GPS (Global Positioning System); INS (Inertial Navigation System).

HTK 206 Aviation Terminology 2+0 3,0 Aeronautical Abbreviations; International Organizations; Air Traffic Units; Aeronautical Publications; Aerodrome Units; Airline Companies; Aeronautical Messages; Meteorological Messages; Navigation Assistance; Strip Marking; Aeronautical Definitions; Air Traffic Services; Aerodrome Anatomy; Controlled Airspace and Airways; Flight Conditions (VFR, IFR, special VFR) Restricted, Prohibited and Dangerous Airspaces; Aircraft Type and Characteristics; Radar; Meteorology.

HTK 207 Aircraft Performance 2+0 3,0 Requirements and Related Documents; Charge Coefficients and Design Speeds; Maximum Design Weights; Take off Restrictions; Extended Twin Engine Operations; Landing Restrictions; Restriction Balance; Weight and Balance; General Flight Equations; Navigation, Climbing, Landing and Holding; Operational Procedures; Preparation of Flight Management; Flight Management; Flight Tolerances, Realization of Flight.

HTK 210 Aerodrome Control Simulation 4+4 9,0 VFR Traffics; Taxi instructions; ATC clearances; Separation between VFR traffics; Control of Arriving/Departing VFR Flights and Control of Aircraft with Vehicles on the Ground; EMG; R/F; with VFR traffics; Separation between IFR/ VFR traffics; Arriving and departing VFR traffic with IFR arrivals making instrument approach; Arriving IFR traffic and traffic on pattern; Mixed traffic; IFR/VFR arrival traffic and IFR arrival executing missed approach; Change of Runway; Visual approach; IFR visual approach and IFR/VFR flights; Operational Efficiency.

HTK 212 Non-Radar Control Procedures 5+0 7,5 ATC Certification And Qualification; Distribution of ATS Responsibility; Explaining Coordination Principles; Define Need of Coordination; Definitions; Separation Standards; Air Traffic Control Clearances And Strip Markings;

689

Essential Traffic; Control of Departure/Arrival Aircraft; Visual Approach; Parallel Runways; Emergency Situations; Phraseology; Synthetic Area; RVR; Coordination; ACAS/TCAS; Extraordinary Situations; Radio Failure; Hijacking; Engine Failure/Emergency.

HTK 213 Air Traffic Communication I 2+2 4,5 Radio Techniques, Phonetic Alphabet And Morse Code; How To Say Numbers Time System Abbreviations; Standard Phraseology; Standard Words And Definitions; Call Signs; Type of Call Signs; Correction; Read Back - Frequency Change; Radio Check; Engine Start Up Procedures And Taxi Instructions; Take Off Clearance Enroute Procedures; Position Reports; Flight Level or Altitude; Approach And Traffic Pattern Procedures; Vacating the Runway After Landing; Radio Failure; Transponder Procedures; Distress Communications; Urgency Communications.

HTK 214 Air Traffic Communication II 2+0 3,0 How To Say Time And Use of Time; Explanation of Special Terms; Standard Phraseologies; Procedures of IFR Air Traffic Communication; Engine Start-Up; Taxi; Enroute; Approach And Radar Approach Procedures; Precision And Non-Precision Approach; Clearance Procedures And Transfer of Communication; Telecommunications Network; Selcal Procedures; Transponder Procedures; General Examples.

HTK 216 Air Traffic Rules and Services 5+0 7,5 Definitions; Abbreviations; Applicability of the Rules of the Air; Territorial Application of the Rules of the Air; Compliance with the Rules of the Air; Responsibility for Compliance with the Rules of the Air; Collision Avoidance; Proximity; Intersection; Landing; Signals for use in the event of interception; Flight Plans; Submission of a Flight Plan; Contents of a Flight Plan; Filling Flight Plan; Visual Flight Rules; Instrument Flight Rules; Minimum Flight Altitudes; Canceling IFR to VFR; Interception of Civil Aircraft and Escort.

HTK 301 Navigation 3+0 4,5 Fundamentals of Navigation; The Solar System; The Earth; Time and Time Conversions; Distances; Magnetism and Compasses; Charts; Dead Reckoning Navigation (DR); In-flight Navigation; Flight Log; IFR and VFR Planning; VOR, ADF, GPS, ILS, DME, AIP and Jeppesen.

HTK 306 Radar Technology 4+0 6,0 The Basics of Radar; Primary Surveillance Radar (PSR); Pulse Radar; Radar Coverage; Antenna and Radom; Transmitter; Receiver and Dupplexer; Display; Radar Range Equation; Target'Position Differances; Radar Resolution Ability; The Factors of Seperation Minima in Air Traffic Control Radar; Clutter and Anti-Clutter Techniques; MTI; Air traffic Control Radars: ASR, ARSR, ASDE, PAR; Secondary Surveillance Radar(SSR): SSR interrogation and reply format, Transponder, Originating region code assignment method (ORCAM), Code distribution and categories; The Monopulse SSR; Mode-S.

HTK 309 Instrument Flight Procedures 4+2 7,5 General Criteria: Speed, Aircraft categories, Turn performance, Wind effect and wind spiral, Climb and descent rate, Minimum obstacle clearance, Fix and fix tolerances, Flight technical tolerances; Conventional Holding Procedures, Instrument approach segment: Arrival, Initial approach, Intermediate approach, Final approach, Missed approach, Non precision approach: Protection areas, Obstacle clearance, Circling approach; Precision approach: Obstacle assessment surface (OAS), Collision Risk Model (CRM); Departure procedures; Area navigation (RNAV) Procedures: VOR/DME RNAV, DME/DME RNAV, GNSS RNAV, RNAV Holding, RNAV Approach, RNAV Departure; Procedure design exercise.

HTK 310 Non Radar Area Control Simulation 4+2 7,5 Over flying traffic (without separation problem); Addition of conflict situations for aircraft on crossing traces and airways; Longitudinal and vertical separation problems of aircraft along the same track; Addition of conflict situations with traffic climbing and descending on reciprocal tracks; Addition of departing traffic; Addition of traffic separation problems requiring lateral separation; emergency descent; radio failure; communication failure.

HTK 311 Non Radar Approach Control Simulation 4+2 7,5

Control of IFR arrivals from outside controlled airspace; Control of IFR departures leaving controlled airspace; Control of IFR arrivals staying within controlled airspace; Control of IFR departures staying within controlled airspace; Simultaneous control of IFR departures and arrivals; IFR arrivals and departures via ATS routes, coordination with ACC and Tower; IFR departures via ATS routes, coordination with ACC and Tower; IFR arrivals and visual approaches; Control of IFR arrivals on missed approaches: IFR flights making emergency descents and landings.

HTK 312 Aeronautical Communications 2+0 3,0 Communication Systems; Activity and Quality in Communication; Aeronautical Communication Procedures; CIDIN/SITA; Aeronautical Fixed Telecommunication Network (AFTN); Message Format; Parts of Messages; Priorities; Types of Message; Preparation of a Flight Plan in Aeronautical Fixed Telecommunication Network Format; Service Messages; Codes and Identifications Used in Aeronautical Fixed Telecommunication Network Messages; Decoding an AFTN Message; Flight Data Process; Communication Equipment; VHF and UHF Radio Systems; TDM; SSB; Landline Telephones; Intercom; CPDLC; SELCAL.

HTK 313 Human Factors 4+0 6,0 Human in Civil Aviation System; Aviation Safety: Human factors; Human Factors: Human error, Error models; Controller Performance; The Factors That Affecting Performance; Human Information Processing; Individual Differences; Organizational Factors; Stress; Automation;

690

Human-machine Interface; Workload; Future Systems and Human Factors.

HTK 401 Radar Control Procedures 4+0 6,0 Introduction; Radar; Presentation of Radar Information; Functions of Radar; Use of Radar in the Air Traffic Control Service; Radar Services; Radar Identification Procedures; Primary Radar (PSR), Secondary Radar (SSR); Misidentification; Factors Causing Misidentification; Loss of Radar Identity; Radar Vectoring; Speed Control; Separation Application of Radar Separation and Minimum Radar Separation; Traffic and Position Information; Emergencies; Phraseology; Strip Marking; Introduction of the Real and Synthetic Terminal Area Configuration for Practical Training.

HTK 406 Aviation Psychology 3+0 4,5 Definition of Aviation Psychology and History; Human Information Processing; Vigilance and Attention; Senses and Perception; Definition of Attention: Main factors affecting person's attention level, Attention in working group; Perception: Senses and functions of perception; Memory and Learning: Basic forms and types of memory; Definition of Motivation: Relationship between motivation and learning, Performance and attention; Personality: Definition, Developing stages, Personality disorders; Human Error and Decision Making; Communication: Various levels of communication, Communication practice in regard to preventing or solving conflicts; Stress Management Techniques.

HTK 408 Air Traffic Management 3+0 4,5 Origin and Development of Air Traffic Management: History of air traffic control, Development of air transportation; Air Traffic Management Definition and Components: Air traffic services, Air traffic control, Alerting services, Flight information services, Air traffic system components, Airspace, Technical equipment, Aeroplane, Human factors, Air traffic flow management, Congestion flow management, Airspace management, Traffic flow and capacity, Separation assurance; Air Traffic Management Functions: Organization, Planning, Control, Coordination, Staffing; Capacity and Efficiency definitions in Air Traffic System; Recent Problems in Air Traffic Management: Performance shortfalls in air traffic management, Safety, Capacity, Efficiency, Cost-effectiveness; Potential Solutions: ICAO special committee on future air navigation systems, Implementation of the future CNS/ATM system.

HTK 409 Civil-Military Air Traffic Coordination 2+0 3,0

Development of National Aviation; Flight Safety; Turkish Civil Aviation Law; Training Areas of Military Bases; Flight Organization of Military Bases; Military Terminal Areas of Turkish Air Space; ATC Coordination of Civil-Military ATC Units in Case of Crisis; Civil-Military Coordination During Exercises; Interception of Civil Aircraft; Onsite Visit of Military Units. Development of national aviation; Flight safety; Turkish Civil Aviation Law; Military terminal areas; Air Defense Notification

Center (ADNC); Coordination between civil and military ATC units; Air defense activities; the mission of ADNC; Radar control services; VIP traffic; Responsibilities of civil/military ATC units in uncertainty phase; Civil and Military coordination during national and NATO exercises; Interception of civil aircraft.

HTK 412 Modern Instrument Systems 2+0 3,0 Basic Optics and Display Types; Displayed Flight Information; EFIS, ECAM, FWS; ARINC 429, ARINC 629; Structure of Avionics Systems; BITE (Built In Test Equipment); Maintenance Levels; Troubleshooting Classification; Structure of BITE; Navigation Systems of Modern Aircraft; Calculation of Flight Information; Transferring Information to Flight Crew; VOR; ILS and MRK Systems; TCAS (Traffic Collision Avoidance System); Structure and Operation; Transferring Information to Flight Crew; CMS (Central Maintenance System): General structure; Report Types.

HTK 413 Radar Approach Control Simulation 4+2 7,5 Identification and vectoring traffic through a U-shaped airway using PSR methods; Identification and vectoring traffic through two half-circle shaped airway using PSR methods; Identification and vectoring traffic into the three V-shaped funnels using PSR methods; Vectoring aircraft for ILS approaches; Identification, vectoring and transfer of control of an aircraft approaching from outside controlled airspace; Emergency descents and landings; Communication failures; Radar equipment failure.

HTK 414 Radar Area Control Simulation 4+2 7,5 Identifying controlled over-flight traffic by PSR methods; Identifying controlled over-flight traffic by SSR methods; Vectoring traffic in order to achieve required en-route radar separation; Vectoring traffic in order to issue requested flight level; Separation of crossing traffic at the same flight level: Vectoring aircraft around unknown traffic; Coordination with adjacent radar units; Radio failure and emergency procedures; Combined simulation of approach and area control units with hand-over and coordination.

HTK 415 Air Traffic Flow Management 3+0 4,5 CFMU (Central Flow Management Unit); FMP's (Flow Management Position's); Area of Resposibility; Organization: FDO (CFMU Flight Data Operation Division); IFPS (Integrated Initial Fligh Plan Processing System); CFMU Strategic System (STRAT); CFMU ATS Data Bank Substructure Facilitys; CFMU Archive System; CEU (Central Executive Unit); CFMU Tactical System (TACT); Aircraft Operator Contact Office; CFMU Operational Procedures; ATFM (Air Traffic Flow Management); Application of ATFM Measures; Exemption and Priorities; Re-routing; Slot Allocation and monitoring; ATFM and departing aircraft.

HTK 416 Radar Traffic Coordination 4+2 7,5 Cooperation and coordination agreements; Coordination of flight movements; Transfer of control responsibility on flights; Transfer of control between approach and area

691

control; holding procedures; calculating EAT and EFC; coordination between ACC, APP, TWR, FIC and other control centers; Information on essential traffic and its coordination within controlled airspace and outside controlled airspace; missed approach; communication failures; emergency situation; wind and runway change; radar equipment failure.

HTK 418 Airspace Organization 2+0 3,0 Airspace: Designation and establishment of airspace, Airspace restriction and reservation, Airspace classifications, Airspace configurations; Airspace sectorisation; Air traffic service (ATS) Routes: Establishment of an ATS route network, Establishment of significant points, Standard departure routes, Standard arrival routes, Alignment of ATS routes; RNAV application in airspace; Airspace and current air traffic service environment, Turkish FIR and route network, Terminal control areas (TMA), Military terminal control areas (MTMA); Flexible use of airspace; Free route airspace concept.

HTK 419 Regional Air Traffic Control Operations 3+0 4,5

ICAO Regions : Africa-India Ocean (AFI); Caribbean (CAR); European (EUR); Middle East Asia (MID/ASIA); North America (NAM); Aviation Procedures; Air Traffic Services and Search and Rescue; Communication; Meteorology; Additional Procedures of EUR Region; Flight Rules; Flight Plans; Ned of RVSM; Introduction to European RVSM Airspace: Europe RVSM Airspace; European RVSM Transition Area; Procedures: General Procedures; Transition Procedures; Phraseology; Vertical Separation in Dangerous; Restricted; Prohibited Areas Separated as Transition Region; Communication Failure in Flight : Transition region; ATS system supports; FDP systems; Radar Display Systems; Flight Strips; OLDI (On-Line Data Interchange); Application of Transition Procedures In Synthetic Region.

HTK 420 Flight Safety Management 3+0 4,5 Basic Concepts; Policy and Principles: Defining safety and security, Priority, Safe ATC, Safety management policy, Responsibilities and setting up a system; Impact of Regulations on Controller; Safety Auditing: Types, Survey plans, Reports, Follow up action plans; Incident Investigation: Steps; Risk Classification: Terminology, Risk classification and tolerability in ATC and airport systems, Safety Assessment in ATC; Hazard Analysis Techniques: Hazard analysis, Failure models, Hazard and incident Trees, Human factors; Assessment and Management of Safety Cases; Safety Manager: Role, Organization and training, Media and accidents.

HTK 452 Helicopter Theory 2+0 3,0 Fundamental Concepts: Angular velocity, Tangential velocity; Aerodynamic concepts; Blade and Propeller; Forces Acting on a Blade During Rotation: Flapping, Dissymmetry of lift; Articulations: Flapping, dragging, feathering; Flight Control Systems; Tail Rotor: Torque Effect of Main Rotor; Air Flow Effect Passing Through a

Blade Under Different Flight Conditions; Autorotation; Helicopter Flight; Airspeed Limitations.

HTK 498 Applications of Air Traffic Control 0+6 4,5 Research Techniques: Basic research and applied research, Data collection techniques, Data processing; Research Methods: Subject selection, Subject restriction, Reference collection; Detailed Research on a Subject in Air Traffic Control: Definition of the problem or the subject in details, Definition of solution techniques or analysis methods, Researching and performing practical works, Results; Reporting: Page set up, Sentence structure, Headings, Abbreviation formats, Figure and table formats, Table of references format.

HUK 153 Fundamentals Concepts of Law 2+0 3,0 Social Rules and Law; Concept of Law and Legal Sanctions; Characteristics of Legal Rules; Sources of Law; Branchs of Law; Definition and Types of Legal Rights; Legal Capacity: As subject of rights, Capacity to act; Kinship; Domicile; Protection of Personality; Possession; Ownership; Obligation and Responsibility; Judiciary Systems.

HUK 154 Commercial Law 2+0 3,0 Commercial Law Concept and Commercial Enterprise; Merchant; Commercial Name; Commercial Register; Unfair Competition; Commercial Reports; Merchant Assistant; Current Account; Partnership Concept; Definition and Elements of Partnership; Collective Partnerships: Establishment, Operation, Ending; Commanded Partnership: Establishment, Operation, Ending; Joint Stock Corporation: Establishment, Operation, Ending; Limited Company: Establishment, Operation, Ending.

HUK 252 Labor Law 2+0 3,0 History of Labor Law; Sources and Basic Principles of Labor Code: Employee, Employer, Representative to the employer; Work place; Contract of Service: Types and termination, Consequences of termination, Severance pay; Regulation of Work with regard to Workers; Groups to be Protected (Women, Children, Handicapped and Sentenced Workers); Health and Security at the Work Place; Working Time; Overtime Work; Night Work; Preparing, Completing and Cleaning at Work.

HUK 418 Air Law 2+0 3,0 Introduction to Air Law; International Agreements and Organizations; Chicago Convention; International Civil Aviation Organization (ICAO); Warsaw Convention and Responsibility of Carrier; Hague Convention; Air Traffic Rights Agreement; Tokyo Convention; Europe Civil Aviaiton Conference (ECAC); Euro-control; Joint Aviation Authority (JAA); Turkish Civil Aviation Law; Aircraft: Concept and Types, Legal Nature of Aircraft, Identity, Nationality, Registration, Ownership; Aircraft Operator: Operator's responsibility, Operator's Insurance Commitment; Air Transportation Contract; Competition and Alliance Regulations in Air Transportation.

692

HYO 104 Introduction to Civil Aviation 3+0 4,5 Historical Development of Civil Aviation in the World; Definition of Civil Aviation; Civil Aviation Activities; International Civil Aviation System: Conventions, Organizations, Regulations, Bilateral agreements, Air traffic rights; National Civil Aviation Regulations (General and Commercial Aviation); National Civil Aviation System; Airports: Definition and the facilities, Airside and landside, Terminal design; Air Transportation in the World and Turkey: Privatization, mergers and alliances.

HYO 105 Air Transportation Management 3+0 4,5 Economic Characteristics of the Airlines: General oligopolistic characteristics, Unique economic characteristics; Airline Management and Organizations; Airline Passenger Marketing: Development of the marketing concept; Forecasting Methods; Airline Pricing; Principles of Airline Scheduling; Principles of Airline Advertising; JAR-OPS Commercial Air Transportation: Certificates, Operators? responsibilities, Maintenance management, Maintenance records and log books, Accident /occurrence reporting.

HYO 106 Basic Aircraft Power Plants 2+2 4,5 Functions of Power plants on Aircraft; Characteristics of Aircraft Power plants; Types of Aircraft Power plants; Piston Engine and Propeller: Engine power cycle, Classification of piston engines, Ignition, Fuel, Lubrication and Cooling Systems; Gas Turbine Engine Systems: Comparison of gas turbine and piston engine cycles, Thrust and factors that affect thrust, Turbojet engines; Gas Turbine and Propeller (Turboprop): Comparison of gas turbine engines; Ignition, Fuel, Lubrication and Cooling Systems; Engine Instrumentation.

HYO 107 Airport and Airport Equipment 3+0 4,5 Definitions; Aerodrome Data; Physical Characteristics; Obstacle Restriction and Removal; Visual Aids for Navigation; Markings, Lights, Signs and Markers; Visual Aids for Denoting Obstacles; Visual Aids for Denoting Restricted Areas; Equipment and Installations; Emergency and Other Services.

HYO 109 Basics of Aircraft 4+0 6,0 Physics of the Atmosphere: The physical characteristics of air, International standard atmosphere; Theory of Flight: Aerostatics, Aerodynamics; Airplane Aerodynamics: Airflow, Boundary layer, The components of aerodynamic force, Aerodynamic moment, L/D ratio, Airfoil, Stall, High lift devices, Subsonic, transonic and supersonic flight; Rotary Wing Aerodynamics; Flight Control Surfaces: Work principles, Effects; Airframe Structures: General concepts, Fuselage, Wings, Stabilizers, Flight control surfaces, Nacelles/Pylons, Landing Gear; Aircraft Powerplants.

HYO 201 Communication and Navigation Systems 2+0 3,0

General Information About Radio Waves; Classification of Navigation Systems; ADF (Automatic Direction Finder); VOR (VHF Omni Directional Range); DME (Distance Measuring Equipment); TACAN (Tactical Air Navigation); ILS (Instrument Landing System); MLS (Microwave Landing System); RA (Radio Altimeter); GPWS (Ground Proximity Warning System); RADAR (Radio Detection and Ranging); GCA (Ground Control Approach); OMEGA; GPS (Global Positioning System); INS (Inertial Navigation System).

HYO 202 Thermodynamics 2+2 4,5 Fundamental Concepts: Energy, Heat transfer, States and equilibrium, Temperature and the zeroth law; Properties of Pure Substances: Phases, Change of states, Perfect gas relation; First Law: Closed systems, Work, Constant of heat and pressure, Control volumes; Second Law: Heat sources and sinks, Entropy, Clasius inequality, Law of entropy increase; Second Law Analysis in Engineering: Energy, Reversible work and irreversibility; Gas Power Cycles: Carnot cycle and engineering importance, Brayton cycle.

HYO 203 Thermodynamics 2+0 3,0 Fundamental Concepts: Energy, heat transfer, states and equilibrium,