ELECTRICAL AND ELECTRONICS ENGINEERING (ENGLISH, PHD)

In order to apply to the doctoral program, candidates must have a thesis-based master's degree and must have an ALES score of no less than 55 points in the score type of the program they are applying for, as determined by the Institute Board recommendation and Senate decision. In addition to the ALES score, a written scientific assessment exam and/or an additional interview result and a master's grade point average may also be evaluated for the acceptance of those who will apply to the doctoral program. Matters related to this evaluation, application conditions and other matters regarding student admission are announced to candidates through appropriate means upon the recommendation of the Institute Board of Directors and the rules determined by the Senate.

Qualification Requirements and Regulations

The students graduating from this program are awarded the Doctor of Philosophy (Ph. D.) degree in Electrical and Electronics Engineering.

Recognition of Prior Learning

Students who will continue their education at Bahçeşehir University may be exempted from the courses they took at their previous educational institution within the framework of certain regulations. If the content of the course taken is compatible with the content of the course given at BAU and is approved by the institute directorate, the student may be exempted from this course.

Occupational Profiles of Graduates

Graduates of the PhD program in Electrical and Electronics Engineering can be recruited within foundations and institutions such as ministries, municipalities, universities, institutes, research and production centers in the public sector as well as private companies related to the Electrical and Electronics Engineering design and application processes. Our graduates can also initiate their own companies.

Access to Further Studies

Students who successfully complete the program can apply for post-doctoral studies according to their areas of expertise.

Program Outcomes

1	Have sufficient background and an ability to apply knowledge of mathematics, science, and engineering to identify, formulate, and solve problems of electrical and electronics engineering
2	Be able to define, formulate and solve sophisticated engineering problems by choosing and applying appropriate analysis and modeling techniques and using technical symbols and drawings of electrical and electronics engineering for design, application and communication effectively.
3	Have an ability to design or implement an existing design of a system, component, or process to meet desired needs within realistic constraints (realistic constraints may include economic, environmental, social, political, health and safety, manufacturability, and sustainability issues depending on the nature of the specific design)
4	Be able to develop, choose, adapt and use innovative and up-to-date techniques, skills, information technologies, and modern engineering tools necessary for electrical and electronics engineering practice and adaptation to new applications.
5	Be able to design and conduct experiments, as well as to collect, analyze, and interpret relevant data, and use this information to improve designs.
6	Be able to function individually as well as to collaborate with others in multidisciplinary teams.
7	Be able to communicate effectively in English and Turkish (if he/she is a Turkish citizen).
8	Be able to recognize the need for, and to engage in life-long learning as well as a capacity to adapt to changes in the technological environment.
9	Have a consciousness of professional and ethical responsibilities as well as workers’ health, environment and work safety.
10	Have the knowledge of business practices such as project, risk, management and an awareness of entrepreneurship, innovativeness, and sustainable development.
11	Have the broad knowledge necessary to understand the impact of electrical and electronics engineering solutions in a global, economic, environmental, legal, and societal context.

Course & Program Outcomes Matrix

No Effect	1 Lowest	2 Low	3 Average	4 High	5 Highest

Program Outcomes	1	2	3	4	5	6	7	8	9	10	11
Courses
EEE5010 Optimization
EEE5022 Applied Statistics
EEE6887 Doctoral Seminar	3	3	3	4	2	3	5	5	3	4	4
EEE6888-1 Ph.D. Thesis	5	4	4	5	5	3	4	4	3	2	2
EEE6888-2 Ph.D. Thesis	5	4	4	5	5	3	4	4	3	2	2
EEE6888-3 Ph.D. Thesis	5	4	4	5	5	3	4	4	3	2	2
EEE6888-4 Ph.D. Thesis	5	5	5	5	5	4	3	4	4	3	5
EEE6902 Qualifier Exam	5	5	3	3			3
MCH5001 Linear System Theory
Departmental Elective
BDA5011 Big Data and Analytics BDA5012 Big Data in Cloud Computing CMP5101 Data Mining CMP5103 Artificial Intelligence CMP5123 Computer Networks and Mobile Communications CMP5126 Image and Video Processing CMP5130 Machine Learning and Pattern Recognition CMP5550 Computer Vision EEE5012 Numerical Methods in Engineering EEE5014 Random Processes and Estimation Theory EEE6008 Directed Topics I EEE6009 Directed Topics II EEE6010 Directed Topics III MCH5315 Nonlinear Control MCH5613 Introduction to Wind Energy Engineering
GE-Elective

Course Structure Diagram with Credits

1. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
MCH5001	Linear System Theory		3	0	3	8
Departmental Elective					3	12
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS BDA5011 Big Data and Analytics 3 0 3 12 BDA5012 Big Data in Cloud Computing 3 0 3 8 CMP5101 Data Mining 3 0 3 8 CMP5103 Artificial Intelligence 3 0 3 8 CMP5123 Computer Networks and Mobile Communications 3 0 3 9 CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 EEE5012 Numerical Methods in Engineering 3 0 3 8 EEE5014 Random Processes and Estimation Theory 3 0 3 8 EEE6008 Directed Topics I 3 0 3 12 EEE6009 Directed Topics II 3 0 3 12 EEE6010 Directed Topics III 3 0 3 12 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Departmental Elective					3	12
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS BDA5011 Big Data and Analytics 3 0 3 12 BDA5012 Big Data in Cloud Computing 3 0 3 8 CMP5101 Data Mining 3 0 3 8 CMP5103 Artificial Intelligence 3 0 3 8 CMP5123 Computer Networks and Mobile Communications 3 0 3 9 CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 EEE5012 Numerical Methods in Engineering 3 0 3 8 EEE5014 Random Processes and Estimation Theory 3 0 3 8 EEE6008 Directed Topics I 3 0 3 12 EEE6009 Directed Topics II 3 0 3 12 EEE6010 Directed Topics III 3 0 3 12 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Total						32

2. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE5010	Optimization		3	0	3	9
EEE5022	Applied Statistics		3	0	3	9
Departmental Elective					3	12
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS BDA5011 Big Data and Analytics 3 0 3 12 BDA5012 Big Data in Cloud Computing 3 0 3 8 CMP5101 Data Mining 3 0 3 8 CMP5103 Artificial Intelligence 3 0 3 8 CMP5123 Computer Networks and Mobile Communications 3 0 3 9 CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 EEE5012 Numerical Methods in Engineering 3 0 3 8 EEE5014 Random Processes and Estimation Theory 3 0 3 8 EEE6008 Directed Topics I 3 0 3 12 EEE6009 Directed Topics II 3 0 3 12 EEE6010 Directed Topics III 3 0 3 12 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Total						30

3. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE6887	Doctoral Seminar	☑	0	0	0	6
Departmental Elective					3	12
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS BDA5011 Big Data and Analytics 3 0 3 12 BDA5012 Big Data in Cloud Computing 3 0 3 8 CMP5101 Data Mining 3 0 3 8 CMP5103 Artificial Intelligence 3 0 3 8 CMP5123 Computer Networks and Mobile Communications 3 0 3 9 CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 EEE5012 Numerical Methods in Engineering 3 0 3 8 EEE5014 Random Processes and Estimation Theory 3 0 3 8 EEE6008 Directed Topics I 3 0 3 12 EEE6009 Directed Topics II 3 0 3 12 EEE6010 Directed Topics III 3 0 3 12 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Departmental Elective					3	12
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS BDA5011 Big Data and Analytics 3 0 3 12 BDA5012 Big Data in Cloud Computing 3 0 3 8 CMP5101 Data Mining 3 0 3 8 CMP5103 Artificial Intelligence 3 0 3 8 CMP5123 Computer Networks and Mobile Communications 3 0 3 9 CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 EEE5012 Numerical Methods in Engineering 3 0 3 8 EEE5014 Random Processes and Estimation Theory 3 0 3 8 EEE6008 Directed Topics I 3 0 3 12 EEE6009 Directed Topics II 3 0 3 12 EEE6010 Directed Topics III 3 0 3 12 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Total						30

4. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE6902	Qualifier Exam		0	0	0	30
Total						30

5. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE6888-1	Ph.D. Thesis	☑	0	0	0	30
Total						30

6. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE6888-2	Ph.D. Thesis	☑	0	0	0	30
Total						30

7. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE6888-3	Ph.D. Thesis	☑	0	0	0	30
Total						30

8. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE6888-4	Ph.D. Thesis	☑	0	0	0	30
Total						30

Program Director (or Equivalent)

ELECTRICAL AND ELECTRONICS ENGINEERING (ENGLISH, PHD) - GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES

Assist. Prof. AYÇA YALÇIN ÖZKUMUR
Program Coordinator

SCHOOL OF ENGINEERING AND NATURAL SCIENCES
E-Mail: ayca.yalcin@eng.bahcesehir.edu.tr
Telephone: +90