First Cycle Programmes    (Bachelor's Degree)
Bachelor - Faculty of Technology - Mechatronics Engineering
General Description  |  Key Learning Outcomes  |  Course Structure Diagram with Credits
General Description ^
History
Based on the decree of the Council of Ministers published in the Official Gazete Issue 27405 on November 13th, 2009 with number 2009/15546 27 and the additional decree of the Council of Ministers published in the Official Gazete Issue 27416 on November 24th, 2009 with number 2009/15612 27 Vocational and Technical Education Faculties with 5 different programs will be closed after graduation of the current students but no later than 2015-2016 academic year. Within the academic institutions embodying the closed faculties, 26 new faculties with 3 different programs are established. Within the universities embodying the closed 21 faculties, (19 of which are Technical Education Faculties and 2 Vocational and Technical Education Faculties) 21 new Faculty of Technologies are established. 7 of these 21 Faculties were established with the criteria compliant with the current engineering education programs and were open to student enrollment by the academic year 2010-2011. One of the faculties open to student enrollment is Faculty of Technology embodied by Marmara University. With 11 academicians 5 different Engineering programs were established within this Faculty of Technology and 3 programs; based on 2010 Student Selection and Placement System (ÖSYS), for each of Mechanical Engineering, Mechatronics Engineering and Metallurgy and Materials Engineering programmes 52 students of which 21 students from general quota and 31 students from Vocational and Technical High Schools were accepted
Qualification Awarded
Engineering
Specific Admission Requirements
21 students have been accepted from the general quota of the department with the Student Selection and Placement System (ÖSYS).
Specific Arrangements For Recognition Of Prior Learning (Formal, Non-Formal and Informal)
The students are placed by the MF-4 grade point. Institutions of Higher Education for courses taken from the same or close to, the exemption committee / unit shall be exempt by the decisions of the board of directors. Higher education system in our country, apprenticeship, industry, etc. is not available from places like the exemption from the course documents.
Qualification Requirements and Regulations
During the engineering education 240 ECTS is required.
Profile of The Programme
The programme profile has to provide criterions for the Turkish Accreditation Board of MÜDEK (Association for Evaluation and Accreditation of Engineering Programs); and later the International Accreditation Board of ABET (Accreditation Board for Engineering and Technology).
Occupational Profiles of Graduates With Examples
No graduation yet. However, as it is based on applied Engineering programme it is expected that the graduations will not have any employment problems. Graduates can work in all areas of inter-disciplinary. Mechanical, Electronic, Automation, Electrical, Robotics work in the fields.
Access to Further Studies
It is possible to continue further Master study programmes after graduation with the requirements of application and entrance conditions(ALES, science exam, interview, etc.) are being achieved. Associate students can enroll the undergraduate program through the DGS exam. MSc canditates have to meet the following criteria, They have to get at least 60 points from theacademic personnel and postgraduate education entrance exam (ALES), They have to get at least 30 points from the interuniversity board foreign language exam (UDS). Average succes grade is determined through the following route: the sum of 50 % of ALES, 20 % of graduate finish score, 15 % of professional knowledge evaluation score and 15 % of interview score. All scores are considered for out of 100 points. Student in take for MSc is realised through a predetermined quota. This process is conducted through the grading of calculated average succes scores which must be at least 60 points out of 100. In certain circumstances, students are required to altend a certain amount of scientific preparation course.
Examination Regulations, Assessment and Grading
In associate and bachelor of engineering education, Marmara University Education and Examination Regulation apply. The success grade of student is determined through the consideration of midterm, final exam, homeworkk quizzes, projects and labwork. Evaluation criteria is stated in writing and orally by the course instructor at the beginning of each semester.
Graduation Requirements
Bachelor: Students must be successful in all undergraduate courses Students have GANO average of 2.00, Students must complete internship and prepare undergraduate completion thesis. MSc: Students have GANO average of 2.50 Students must prepare MSc completion thesis.
Mode of Study (Full-Time, Part-Time, E-Learning )
Full-Time
Address, Programme Director or Equivalent
Marmara University, Faculty of Technology, Department of Mechatronics Engineering, Göztepe, 34722 Kuyubaşı/ İSTANBUL Head of Department: Assoc.Prof. Dr. Haluk Kucuk Co-Head of Department: Assoc. Prof. Dr. Mustafa Demetgul Erasmus Coordinator: Assoc. Prof. Dr. Mustafa Demetgul
Facilities
Laboratory, workshop, computer facilities are available and various practical possibilities are present. There are a total of 10 one implementation laboratory. faculty members is 6 for a total of One professor, three associate professors, 2 Asst. professors.
Key Learning Outcomes ^
1 Students will have the ability to apply the knowledge of mathematics, science, and engineering to mechatronics engineering problems,
2 Students will have the ability to design and conduct experiments, as well as to analyze and interpret data and use modern tools and equipment.
3 Students will have the ability to use scientific methods in solving mechatronics engineering problems.
4 Students will have the ability to find solutions that meet the technical and economic expectations in designing a system with components
5 Students will have the ability to define and solve contemporary mechatronics problems
6 Students will have the ability to approach mechatronics engineering globally and locally.
7 Students will have the ability to use modern equipment, such as computer software, in engineering design and analysis.
8 Students will have the ability to work on a multi-disciplinary team and as a team leader
9 Students will have the ability to follow academic and industrial developments concerning mechatronics engineering
10 Students will be able to keep themselves up to date in the field.
11 Students will have the ability to communicate verbally and in writing in Turkish and English.
12 Students will have the ability to study in interdisciplinary and multi-disciplinary environments.
13 Students will have the ability to attain professional and ethical values and act in keeping with these values.
14 Students will have the ability to act in awareness of economic, social and environmental factors in their professional activities
15 Students will have the ability to act in awarenes of health and safety in mechatronics engineering
Course Structure Diagram with Credits ^
T : Theoretical P: Practice
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 BLM110 Using Fundamentals of Information Technologies Compulsory 1 2 3
2 FZK171 Physics I Compulsory 3 0 5
3 MAM120 Technical Drawing Compulsory 2 2 4
4 MAT185 Calculus I Compulsory 4 0 6
5 MAT187 Linear Algebra Compulsory 3 0 5
6 TF150 Work Health and Safety Compulsory 2 0 3
7 TRD121 Turkish Language I Compulsory 2 0 2
8 YDZx121 Foreign Language I Elective 2 0 2
Total 19 4 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 BLM120 Computer Programming Compulsory 2 2 4
2 FZK172 Physics II Compulsory 3 0 4
3 KMY120 Chemistry Compulsory 2 0 4
4 MAM104 Mechanics I Compulsory 2 0 4
5 MAT186 Calculus II Compulsory 4 0 5
6 MRM100 Introduction to Mechatronics Engineering Compulsory 2 0 2
7 MRM102 Measurement Technique Compulsory 1 2 3
8 TRD122 Turkish Language II Compulsory 2 0 2
9 YDZx122 Foreign Language II Elective 2 0 2
Total 20 4 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 ATA121 Ataturk's Principles and The History of Turkish Renovation I Compulsory 2 0 2
2 MAM205 Mechanics II Compulsory 2 0 4
3 MAM311 Computer Aided Design (CAD) Compulsory 2 2 4
4 MAT285 Differential Equations Compulsory 3 0 5
5 MLM203 Materials Science and Inspection Compulsory 2 2 5
6 MRM201 Electromechanic Systems Compulsory 2 0 5
7 MRM203 Introduction to Numerical Systems Compulsory 2 2 5
Total 15 6 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 ATA122 Principles of Ataturk II Compulsory 2 0 2
2 ELM204 Electrical and Electronical Circuits Compulsory 2 2 5
3 MAM202 Strength of Materials Compulsory 3 0 5
4 MAM208 Thermo-Fluidics Compulsory 3 0 5
5 MAM312 Computer Aided Manufacturing (CAM) Compulsory 2 2 5
6 MAT286 Numerical Analysis Compulsory 3 0 5
7 MRM202 Microinspectors and Applications Compulsory 1 2 3
Total 16 6 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 IST345 Statistics for Engineers Compulsory 2 0 3
2 MAM301 Machine Elements I Compulsory 3 0 4
3 MAM310 Hydrolic-Pneumatic Compulsory 2 2 5
4 MRM300 Internship I Compulsory 0 4 4
5 MRM301 Programmable Logic Controllers Compulsory 1 2 3
6 MRM303 Mechanism of Robots Compulsory 1 2 3
7 MRM-TS1,2 Technical Optional Course - 1-2 Elective 4 2 8
Total 13 12 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 IKT344 Engineering Economy Compulsory 2 0 3
2 MAM330 Automotive Mechatronics Compulsory 2 2 4
3 MAM352 Automatic Control Compulsory 2 2 4
4 MRM302 Design of Mechatronics System Compulsory 2 2 6
5 MRM304 Sensing and Data Collection Compulsory 2 2 5
6 MRM-TS3,4 Technical Optional Course - 3-4 Elective 4 2 8
Total 14 10 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MRM400 Internship II Compulsory 0 4 4
2 MRM401 Work placement Training Compulsory 0 32 18
3 MRM497 Graduation Project I Compulsory 0 2 2
4 MRM-TOS1 Non-Technical Optional Course - 1 Elective 2 0 2
5 YDI431 Technical Foreign Language I (English) Compulsory 3 0 4
Total 5 38 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 HUK444 Business Law and Ethics Compulsory 2 0 3
2 ISL444 Industrial Organization and Management Compulsory 3 0 4
3 MAM452 Flexible Manufacturing Systems Compulsory 2 2 4
4 MRM498 Graduation Project II Compulsory 0 2 5
5 MRM-TOS2 Non-Technical Optional Course - 2 Elective 2 0 2
6 MRM-TS5,6 Technical Optional Course - 5-6 Elective 4 2 8
7 YDI432 Technical Foreign Language II (English) Compulsory 3 0 4
Total 16 6 30
Elective
1 . Semester > YDZx121 Foreign Language I
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 YDZA121 German I Compulsory 2 0 2
2 YDZA122 German II Compulsory 2 0 2
3 YDZF121 French I Compulsory 2 0 2
4 YDZF122 French II Compulsory 2 0 2
5 YDZI121 English I Compulsory 2 0 2
6 YDZI122 English II Compulsory 2 0 2
2 . Semester > YDZx122 Foreign Language II
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 YDZA122 German II Compulsory 2 0 2
2 YDZF122 French II Compulsory 2 0 2
3 YDZI122 English II Compulsory 2 0 2
5 . Semester > MRM-TS1,2 Technical Optional Course - 1-2
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 ELM331 Power Electronics Compulsory 2 2 4
2 ELM333 Signal Processing Technics Compulsory 2 2 4
3 MAM371 Advanced Computer-aided Manufacturing Compulsory 2 2 4
4 MAM373 Mechanical Vibrations Compulsory 2 2 4
5 MAM375 System Dynamics and Modelling Compulsory 2 2 4
6 MAM377 Manufacturing Technics and Applications Compulsory 2 2 4
7 MRM331 Biomedical Instruments Compulsory 2 2 4
8 MRM333 Industrial Measurement and Applications Compulsory 2 2 4
9 MRM335 Vision Processing Compulsory 2 2 4
6 . Semester > MRM-TS3,4 Technical Optional Course - 3-4
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 ELM332 Electrical Machines and Applications Compulsory 2 2 4
2 MAM372 Advanced Manufacturing Technology Compulsory 2 2 4
3 MLM394 Material Selection and Analysis Compulsory 2 2 4
4 MRM332 Digital Measurement Compulsory 2 2 4
5 MRM334 Advanced Mechanics of Robots Compulsory 2 2 4
6 MRM336 Welding Technology with Robots Compulsory 2 2 4
7 MRM338 System Maintanence and Error Detecting Compulsory 2 2 4
8 MRM340 Product Design and Prototyping Compulsory 2 2 4
9 MRM342 Artificial Intelligent Systems Compulsory 2 2 4
7 . Semester > MRM-TOS1 Non-Technical Optional Course - 1
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 BSB441 History of Science Compulsory 2 0 2
2 BSB443 Environment and Energy Compulsory 2 0 2
3 BSB445 Report Preparation and Presentation Techniques   Compulsory 2 0 2
4 DB441 Behavioural Science Compulsory 2 0 2
5 DB443 Work Psychology   Compulsory 2 0 2
6 ISL441 Entrepreneurship Compulsory 2 0 2
7 KSS441 City and Culture: Istanbul Compulsory 2 0 2
8 . Semester > MRM-TOS2 Non-Technical Optional Course - 2
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 BSB442 History of Civilization  Compulsory 2 0 2
2 BSB444 Ottoman History Compulsory 2 0 2
3 BSB446 Social Organization Compulsory 2 0 2
4 KSS442 Technical Communication Compulsory 2 0 2
5 PAZ444 Techinal Sales and Marketing Compulsory 2 0 2
6 YON444 Leadership Compulsory 2 0 2
7 YON448 Technology Management Compulsory 2 0 2
8 . Semester > MRM-TS5,6 Technical Optional Course - 5-6
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 ELM486 Digital Control Systems Compulsory 2 2 4
2 MAM472 Advanced Strength of Materials Compulsory 2 2 4
3 MAM474 Advanced Automatic Control Compulsory 2 2 4
4 MRM432 Synchronous Coordinate Measurement (CMM) Compulsory 2 2 4
5 MRM434 Enclosed Systems Compulsory 2 2 4
6 MRM436 Technics of Positioning Compulsory 2 2 4
7 MRM438 Micromachines Compulsory 2 2 4
8 MRM440 Autonomus Robots Compulsory 2 2 4
9 MRM442 Virtual Manufacturing Design and Optimization Compulsory 2 2 4
10 MRM446 Introduction to Finite Elements Compulsory 2 2 4
11 MRM448 Non-Destructive Health Monitoring of Materials Compulsory 2 2 4
12 MRM450 Process Control Compulsory 2 2 4

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