MECHATRONICS ENGINEERING (ENGLISH, THESIS)

In order to apply for a master's program, candidates must have a bachelor's degree and meet other basic program-specific requirements to be determined by the Institute Board. In addition, students applying to thesis programs must have an ALES score of no less than 55 points, as determined by the Institute Board in the score type they are applying for. The foreign language proficiency levels of candidates applying to master's programs conducted in a foreign language are determined according to the results of central foreign language exams accepted by YÖK, international foreign language exams accepted as equivalent by YÖK or ÖSYM, or the University English Proficiency Exam.

Qualification Requirements and Regulations

The students graduating from this program are awarded the Master of Science (M.S.) degree in Mechatronics 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 Mechatronics Engineering Master’s program can find employment in private or goverment sector factories and firms (appliances, automotive etc.), research and certification institutions (TUBITAK, TSE etc.) and also can initiate their own companies.

Access to Further Studies

Students who graduate from this program can apply to study in doctoral programs.

Program Outcomes

1	Gains an academic background and abilities for making scientific research; analysis, interpretation and application of knowledge in subjects of Mechatronics Engineering.
2	Acquires an ability to select, apply and develop modern techniques and methods for mechatronics engineering applications.
3	Develops new and innovative ideas, procedures and solutions in the design of mechatronics systems, components and processes.
4	Gains an ability for experimental design, data accumulation, data analysis, reporting and implementation.
5	Acquires abilities for individual and team-work, communication and collaboration with team members and interdisciplinary cooperation.
6	Gains an ability to communicate effectively oral and written; and a knowledge of English sufficient to follow technical developments and terminology.
7	Acquires recognition of the need for, and an ability to access and report knowledge, to engage in life-long learning.
8	Gains an understanding of universal, social and professional ethics.
9	Acquires a knowledge of business-oriented project organization and management; awareness of entrepreneurship, innovation and sustainable development
10	Gains awareness for the impact of mechatronics engineering applications on human health, environmental, security and legal issues in a global and social 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
Courses
EEE5101 Research Methods and Ethics
MAT5101 Engineering Mathematics	5	2	1	1	1	1	3	1
MCH5461 Transport Phenomena
MCH5462 Advanced Robotics
MCH5887 Seminar	5	1			3	4	1	1	1
MCH5888-1 Master Thesis	5	5	4	4	1	5	1	1
MCH5888-2 Master Thesis	5	5	5	5	2	4	1		1	1
Departmental Elective
CMP5126 Image and Video Processing CMP5130 Machine Learning and Pattern Recognition CMP5133 Artificial Neural Networks CMP5550 Computer Vision ENM5227 Risk Management ESE5502 Sustainable Energy Systems IND5101 Smart Factories IND5102 Internet of Things MCH3008 Control Systems MCH4202 Autonomous Robotics MCH5001 Linear System Theory MCH5315 Nonlinear Control MCH5613 Introduction to Wind Energy Engineering 4 5 5 5 5 4 3 4 3
GE-Elective

Course Structure Diagram with Credits

1. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
MAT5101	Engineering Mathematics		3	0	3	8
MCH5461	Transport Phenomena		3	0	3	8
Departmental Elective					3	8
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5133 Artificial Neural Networks 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 ENM5227 Risk Management 3 0 3 12 ESE5502 Sustainable Energy Systems 3 0 3 8 IND5101 Smart Factories 3 0 3 8 IND5102 Internet of Things 3 0 3 8 MCH3008 Control Systems 3 2 3 7 MCH4202 Autonomous Robotics 3 0 3 6 MCH5001 Linear System Theory 3 0 3 8 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Departmental Elective					3	6
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5133 Artificial Neural Networks 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 ENM5227 Risk Management 3 0 3 12 ESE5502 Sustainable Energy Systems 3 0 3 8 IND5101 Smart Factories 3 0 3 8 IND5102 Internet of Things 3 0 3 8 MCH3008 Control Systems 3 2 3 7 MCH4202 Autonomous Robotics 3 0 3 6 MCH5001 Linear System Theory 3 0 3 8 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Total						30

2. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
EEE5101	Research Methods and Ethics		3	0	3	9
MCH5462	Advanced Robotics		3	0	3	8
MCH5887	Seminar	☑	0	0	0	10
Departmental Elective					3	8
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5133 Artificial Neural Networks 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 ENM5227 Risk Management 3 0 3 12 ESE5502 Sustainable Energy Systems 3 0 3 8 IND5101 Smart Factories 3 0 3 8 IND5102 Internet of Things 3 0 3 8 MCH3008 Control Systems 3 2 3 7 MCH4202 Autonomous Robotics 3 0 3 6 MCH5001 Linear System Theory 3 0 3 8 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Departmental Elective					3	8
Course Code Course Name Prerequisites Theoretical Practical Credit ECTS CMP5126 Image and Video Processing 3 0 3 12 CMP5130 Machine Learning and Pattern Recognition 3 0 3 12 CMP5133 Artificial Neural Networks 3 0 3 12 CMP5550 Computer Vision 3 0 3 8 ENM5227 Risk Management 3 0 3 12 ESE5502 Sustainable Energy Systems 3 0 3 8 IND5101 Smart Factories 3 0 3 8 IND5102 Internet of Things 3 0 3 8 MCH3008 Control Systems 3 2 3 7 MCH4202 Autonomous Robotics 3 0 3 6 MCH5001 Linear System Theory 3 0 3 8 MCH5315 Nonlinear Control 3 0 3 12 MCH5613 Introduction to Wind Energy Engineering 3 0 3 12
Total						43

3. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
MCH5888-1	Master Thesis		0	0	0	20
Total						20

4. Semester
Course Code	Course Name	Prerequisites	Theoretical	Practical	Credit	ECTS
MCH5888-2	Master Thesis	☑	0	0	0	30
Total						30

Program Director (or Equivalent)

MECHATRONICS ENGINEERING (ENGLISH, THESIS) - GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES

Prof. Dr. ERCAN ERTÜRK
Program Coordinator

SCHOOL OF ENGINEERING AND NATURAL SCIENCES
E-Mail: ercan.erturk@eng.bau.edu.tr
Telephone: +90